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REFERENCES
Abass, S.M. and Mohamed H.I. (2011). Alleviation of adverse effects of drought
stress on common bean (Phaseolus vulgaris L.) by exogenous application of
hydrogen peroxide. Bangladesh J Bot. 1: 75-83.
Abbas, G., Aslam, M., Malik, A.U., Abbas, Z., Ali, M. and Hussain, F. (2011).
Potassium sulphate effects on growth and yield of mungbean (Vigna radiata
L.) under arid climate. Int J Agric Appl Sci. 3: 72-75.
Abbasi, M.K., Tahir, M.M., AzaZm, W., Abbas, Z. and Rahim, N. (2012). Soybean
Yield and Chemical Composition in Response to Phosphorus-Potassium
Nutrition in Kashmir. Agron J. 104: 1476-1484.
Abd-Alla, M.H. and Wahab, A.M.A. (1995). Response of nitrogen fixation, nodule
activities, and growth to potassium supply in water-stressed broad bean. J
Plant Nutr. 18: 1391-1402.
Abdelhamid, M.T., Kamel, H. and Dawood, M.G. (2011). Response of Non-
Nodulating, Nodulating and Super-Nodulating Soybean Genotypes to
Potassium Fertilizer under Water Stress. J Plant Nutr. 34: 1675-1689.
Abdelvahab, A.M. and Abdalla, M.H. (1995). The role of potassium fertilizer in
nodulation and nitrogen fixation of faba beans (Vicia faba L.) plants under
drought stress. J Biol Fert Soils. 20: 147-150.
Abo-El-Kheir, M.S.A. and Mekki, B.B. (2007). Response of maize single cross-10 to
water deficits during silking and grain filling stages. World J Agric Sci. 3:
269-271.
Afkari, B. A., Qasimov, N. and Yarnia, M. (2009). Effects of drought stress and
potassium on some of the physiological and morphological traits of sunflower
(Helianthus annuus L.) cultivars. J Food Agric Environ. 7: 448-451.
Afzal A., Gulzar, I., Shahbaz, M. and Ashraf, M. (2014). Water deficit-induced
regulation of growth, gas exchange, chlorophyll fluorescence, inorganic
nutrient accumulation and antioxidative defense mechanism in mungbean
[Vigna radiata (L.)Wilczek]. J Appl Bot Food Qual. 87: 147-156.
ii
Afzal, M.A., Murshad, A.N.M.M., Bakar, M.M.A., Hamid, A. and Salahuddin,
A.B.M. (2008). Mungbean Cultivation in Bangladesh, Pulse Research Station,
Bangladesh Agricultural Research Institute, Gazipur, Bangladesh.
Agarwal, P.K., Agarwal, P., Reddy, M.K. and Sopory, S.K. (2006). Role of DREB
transcription factors in abiotic and biotic stress tolerance in plants. Plant Cell
Rep. 25: 1263-1274.
Agastian, P., Kingsley, S.J. and Vivekanandan, M. (2000). Effect of salinity on
photosynthesis and biochemical characteristics in mulberry genotypes.
Photosynthetica 38: 287-290.
Ahmad, M.S.A., Hussain, M., Ijaz, S. and Alvi, A.K. (2008) Photosynthetic
performance of two mung bean (Vigna radiata (L.) cultivars under lead and
copper stress. Int J Agri Biol. 10: 167-172.
Ahmad, N. and Wyn Jones, R.G. (1982). Tissue distribution of glycine betaine,
proline and inorganic ions in barely at different times during the plant growth
cycle. J Plant Nutr. 5: 195.
Ahuja, K.L., Raheja, R.K. Labana, K.S. and Gomber, T.S. (1990). Oil content and
fatty acid composition of some promising genotypes of Gobhi Sarson
(Brassica napus). J Oilseeds Res. 7: 114-116.
Akkasaeng, C., Tantisuwichwong, N., Chairam, I., Prakrongrak, N., Jogloy, S. and
Pathanothai, A. (2007). Isolation and identification of peanut leaf proteins
regulated by water stress. Pak J Biol Sci. 10: 1611-1617.
Akram, M. (2011). Growth and yield components of wheat under water stress of
different growth stages. Bangladesh J Agril Res. 36: 455-468.
Alam, S.M. (1990) Adaptation of hydroponic to Thar desert conditions for grwoing
crops. Pak Agric. 25: 12.
Alam, S.M. (1994). Nutrient by plants under stress conditions. In: Pessarakli M (eds)
Handbook of Plant and Crop Stress, pp. 227-246. Marcel Dekker, New York.
Albert, R.S., Thomber, J.P. and Fiscus, E.L. (1977). Water stress effect on the content
and organization of chlorophyll and mesophyll and bundle sheath chloroplasts
of maize. Plant Physiol. 59: 351-353.
iii
Albrecht, S.L., Bennett, J.M. and Boote, K.J. (1984). Relationship of nitrogenase
activity to plant water stress in field-grown soybeans. Field Crops Res. 8: 61-
71.
Al-Hakimi, A., Monneveux, P. and Galiba, G. (1995). Soluble sugars, proline and
relative water content (RWC) as traits for improving drought tolerance and
divergent selection for RWC from T. polonicum into T. durum. J. Genetic and
Breed. 49: 237-243.
Ali, A., Malik, M.A., Ahmad, R. and Atif, T.S. (1996). Response of mungbean to
potassium fertilizer. Pak J Agric Sci. 33: 44-45.
Ali, A., Nadeem, M.A., Maqbool, M. and Ejaz, M. (2006). Effect of different levels of
potash on growth, yield and protein contents of Mungbean varieties. J Agric
Res. 44: 121-126.
Ali, B., Hayat, S., Fariduddin, Q. and Ahmad A. (2008). 24-epibrassinolide protects
against the stress generated by salinity and nickel in Brassica juncea.
Chemospere. 72: 1387-1392.
Ali, H.M., Siddiqui, M.H., Al-whaibi, M.H., Basalah, M.O., Sakran, A.M. and El-
zaidy M. (2013). Effect of proline and abscisic acid on the growth and
physiological performance of faba bean under water stress. Pak J Bot. 45: 933-
940.
Ali, M. (2006). Drought Management Strategies for Pulse crops. Agrotech. 384.
Ali, M. and Kumar, S. (2004). Prospects of mung bean in rice-wheat cropping
systems in Indo-Gangetic Plains of India. In: Proceedings of the Final
Workshop and Planning Meeting. Improving Income and Nutrition by
Incorporating Mungbean in Cereal Fallows in the Indo-Gangetic Plains of
South Asia, S. Shanmugasundaram (ed.). DFID Mungbean Project for 2002–
2004, 27–31 May 2004, Ludhiana, Punjab,India, pp. 246-254.
Ali, M. and Kumar, S. (2009). Major technology advances in Pulses. J Fd Legume.
23: 169-185.
iv
Ali, M., Bakht, J. and Khan, G. (2014). Effect of water deficiency and potassium
application on plant growth, osmolytes and grain yield of Brassica napus
cultivars. Acta Bot. Croat. 73: 299-314.
Ali-Ahmad, M. and Basha, S.M. (1998). Effect of Water Stress on Composition of
Peanut Leaves. Peanut Sci. 25: 31-34.
Allahmoradi, P., Ghobadi, M., Taherabadi, S., Taherabadi, S. (2011). Physiological
aspects of mungbean (Vigna radiata L.) in response to drought stress.
International Conference on Food Engineering and Biotechnology, IPCBEE,
vol. 9. IACSIT Press, Singapore, 272-275.
Allan, K.S.L., Candido, F.L.N., Benedito, G.S.F., Roberto, C.L.C., Flavio, J.R.C.,
Hadrielle, K.B.N. and Monick, J.S.L. (2008). Physiological and biochemical
behavior in soybean (Glycine max cv. Sambaiba) plant under water deficit.
Aust J Crop Sci. 2: 25-32.
Allen, L., Benoist, B., Dary, O. and Hurrell, R. (2006). Guidelines on food
fortification with micronutrients. World Health Organization and Food and
Agricultural Organization of the United Nations. Geneva: World Health
Organization.
Almodares, A., Taheri, R., Chung, I.M. and Fathi, M. (2008). The effect of nitrogen
and potassium fertilizers on growth parameters and carbohydrate contents of
sweet sorghum cultivars. J Environ Biol. 29: 849-52.
Amtmann, A., Armengaud, P. and Volkov, V. (2004). Potassium nutrition and salt
stress. In M.R. Blatt, ed, Membrane Transport in plants, Blackwell Publishing,
Oxford.
Anderson, M.N., Jensen, C.R. and Losch, R. (1992). The interaction effects of
potassium and drought in field-grown barely. I. Yield, water use efficiency
and growth. Acta Agric Scand. 42: 34-44.
Anjum, F., Yaseen, M., Rasul, E., Wahid, A. and Anjum, S. (2003a).Water stress in
barley. I. Effect on chemical composition and chlorophyll contents. Pak J
Agric Sci. 40: 45-49.
v
Anjum, F., Yaseen, M., Rasul, E., Wahid, A. and Anjum, S. (2003b). Water stress in
barley (Hordeum vulgare L.). I. Effect on morphological characters. Pak J
Agric Sci. 40: 43-44.
Anjum, S., Xie, X., Wang, L., Saleem, M., Man, C. and Lei, W. (2011). Mor-
phological, physiological and biochemical responses of plants to drought
stress. J Afr Agric Res. 6: 2026-2032.
Anjum, S.A., Wang, L.C., Farooq, M., Hussain, M., Xue, L.L. and Zou, C.M. (2011).
Brassinolide application improves the drought tolerance in maize through
modulation of enzymatic antioxidants and leaf gas exchange. J Agron Crop
Sci. 197: 177-185.
Anonymus, (2005). Area production and average yield per hectare of important crops
in Haryana. Statistical Abstract Haryana (2004-05). 8 (16): 231.
Aown, M., Raza, S., Saleem, M.F., Anjum, S.A., Khaliq, T. and Wahid, M.A. (2012).
Foliar application of potassium under water deficit conditions improved the
growth and yield of wheat (Triticum aestivum L.). J Anim Plant Sci. 22: 431-
437.
Arabzadeh, N. (2012). The effect of drought stress on soluble carbohydrates (Sugars)
in two species of Haloxylon persicum and Haloxylon aphyllum. Asian J Plant
Sci. 11:44-51.
Ardestani, H.G. and Rad, A.H.S. (2012). Impact of regulated deficit irrigation on the
physiological characteristics of two rapeseed varieties as affected by different
potassium rates. Afr J Biotechnol. 11: 6510-6519.
Arif, M., Arshad, M., Khalid, A. and Hannan, A. (2008). Differential response of rice
genotypes at deficit and adequate potassium regimes under controlled
conditions. Soil Environ. 27: 52-57.
Arndt, S.K., Wanek, W., Clifford, S.C. and Popp, M. (2000). Contrasting adaptations
to drought stress in field-grown Ziziphus mauritiana and Prunus persica trees:
water relations, osmotic adjustment and carbon isotope composition, Aust J
Plant Physiol. 27: 985-996.
vi
Arnon, D.L. (1949). Copper enzymes in isolated chloroplast, polyphenoloxidase in
Beta vulgaris. Plant Physiol. 24: 1-15.
Arrese, I., Gonzalez, E.M., Mariano, D., Landera, R., Larraiza, E. and Gil-Quintana,
E. (2009). Physiological response of legume nodules to drought, Plant stress,
Global Science book, 5: 24-31.
Arrese‐Igor, C., Gonzalez, E.M., Gordon, A.J., Minchin, F.R., Galvez, L., Royuela
M., Cabrerizo, P.M. and Aparicio‐Tejo, P.M. (1999). Sucrose synthase and
nodule nitrogen
fixation under drought and other environmental stresses. Symbiosis. 27: 189-212.
Asaduzzaman, F.K., Ullah, J. and Hasanuzzaman, M. (2008). Response of mungbean
to nitrogen and irrigation management. Am Eurasian J Sci Res. 3: 40-43.
Asgar A., Nadeem, M.A., Muddassar, M. and Ejaz, M. (2006). Effect of different
levels of potash on growth, yield and protein contents of mungbean varieties. J
Agric Res. 44:121-126.
Asha, S. and Rao, K.N. (2002). Effect of simulated water logging on the levels of
amino acids in groundnut at the time of sowing, Indian J Plant Physiol. 7: 288-
291.
Asharaf, M. and Mahmood, S. (1990). Responses of four Brassica species to drought
stress. Eviron Expt Bot. 30: 93-100.
Ashraf, M. (1994). Breeding for salinity tolerance in plants. Crit Rev Plant Sci. 13:
17-42.
Ashraf, M. (2010). Inducing drought tolerance in plants: some recent advances.
Biotechnol Adv. 28: 169-183.
Ashraf, M. and Foolad, M.R. (2007). Roles of glycine betaine and proline in
improving plant abiotic stress resistance. Environ Exp Bot. 59: 206-216.
Ashraf, M. and Harris, P.J.C. (2004). Potential biochemical indicators of salinity
tolerance in plants. Plant Sci. 166, 3-16.
vii
Ashraf, M. and Ibram, A. (2005). Drought stress induced changes in some organic
substances in nodules and other plant parts of two potential legumes differing
in salt tolerance. Flora. 200: 535-546.
Ashraf, M. and Mehmood, S. (1990). Response of four Brassica species to drought
stress. Environ Expt Bot. 30: 93-100.
Ashraf, M., Yousaf, M., Ahmad, Z.I. and Amanullah, A. (2002). Effect of K supply
on growth and development of maize (Zea mays L.). Pak J Soil Sci. 21: 43-48.
Ashraf, M.Y., Ali, S.A. and Bhatti, A.S. (1998). Nutritional imbalance in wheat
genotypes grown at soil water stress. Acta Physiol Plant. 20: 307-310.
Aslam, M., Shahid Ibni Z.M., Afzal, I. and Yaseen, M. (2013). Morphological and
physiological response of maize hybrids to potassium application under
drought stress. J Agric Res. 51:443-454.
Aslam, M., Zamir, M.S.I., Afzal, I. and Yaseen, M. (2014). Morphological and
physiological response of maize hybrids to potassium application under
drought stress. J Agric Res. 51: 443-454.
Ayub, M., Nadeem, M.A., Naeem, M., Tahir, M., Tariq, M. and Ahmad W. (2012).
Effect of different levels of p and k on growth, forage yield and quality of
cluster bean (Cyamopsis tetragonolobus L.). J Anim Plant Sci. 2: 479-483.
Azhar N., Hussain, B., Ashraf, M.Y. and Abbas, M.Y. (2011). Water stress mediated
changes in growth, physiology and secondary metabolites of desi ajwain
(Trachyspermum ammi L.). Pak J Bot. 43: 15-19.
Bagga, A.K., Bala, M. and Tomar, O.P.S. (1985). Effect of fluctuating moisture
conditions on growth, yield and nitrogen status of two mung bean (Vigna
radiata L.) varieties. Indian J Plant Physiol. 28: 395-406.
Bakht, J., Bano, A., Shafi, M. and Dominy, P. (2013). Effect of abscisic acid
application on cold tolerance of chick pea (Cicer arietinum L.). Eur J Agron.
44: 10-21.
Bakht, J., Javed, M., Shafi, M., Mohammad, A.K. and Mohammad, S. (2012). Effect
of salinity and ABA application on proline production and yield in wheat
genotypes. Pak J Bot. 44: 873-878.
viii
Bakry, A.B., Abdelraouf, R.E., Ahmed, M.A. and El Karamany, M.F. (2012). Effect
of drought stress and ascorbic acid foliar application on productivity and
irrigation water use efficiency of wheat under newly reclaimed sandy soil. J
Appl Sci Res. 8: 4552-4558.
Balasubramanium, V. and Maheshwari, M. (1989). Comparison of physiological
response of pearl millet and sorghum to water stress. Proc. Indian Acad Sci.
99: 517-522.
Baligar, V.C., Fageria, N.K. and He, Z.L. (2001). Nutrient use efficiency in plants.
Communications in Soil Science and Plant Analysis. 32: 921-950.
Bano, A. and Aziz, N. (2003). Salt and drought stress in wheat and role of abscisic
acid. Pak J Bot. 5: 871-883.
Baque, A., Karim, A., Hamid, A. and Tetsushi, H. (2006). Effects of fertilizer
potassium on growth, yield and nutrient uptake of wheat (Triticum aestivum)
under water stress conditions. South Pacific Stud. 27: 25-35.
Barassi, C.A., Crupkin, M., Sueldo, R.J. and Invernati, A. (1981). Osmotic stress in
coleoptiles and primary leaves of wheat. I Effect on size, weight, total protein,
DNA and RNA. J Expt Biol. 31: 1565-1572.
Barlow, E.W.R., Munns, R.E. and Bardy, C.J. (1980). Drought respone of apical
meristems. In: Adaptation of plants to water and high temperature stress. (eds.)
Turner, N.C. and Kramer. P.J. Willey, New York. pp. 191-205.
Barry, P., Evershed, R.P., Young, A., Prescott, M.C. and Britton, G. (1992)
Characterization of carotenoid acyl esters produced in drought stressed-barely
seedlings. Phyton. 31: 3163-3168.
Bates, L.S., Waldren, R.P. and Teare, L.D. (1973). Rapid determination of free
proline for water stress studies. Plant Soil. 39: 205-207.
Bayat, A., Ahmadvand, G. and Dorri, H. (2010). The effect of water stress on the
yield and yield components of spotted beans genotypes. J Agron Sci Iran. 45:
42-45.
ix
Becana, M. and Klucas, R.V. (1992). Transition metals in legume root nodules: iron-
dependent free radical production increases during nodule senescence.
Proceeding of the National Academy of Sciences, USA 89: 8958-8962.
Becana, M., Aparicio-Tejo, P., Pena, P., Aguirreolea, J. and Sanchez-Diaz, M. (1986).
N2 fixation (C2H2-reducing activity) and leghemoglobin content during nitrate
and water stress induced senescence of Medicago sativa root nodules. J Exp
Bot. 37: 597-605.
Becana, M., Dalton, D.A., Moran, J.F., Iturbe-Ormaetxe, I., Matamoros, M.A. and
Rubio, M.C. (2000). Reactive oxygen species and antioxidants in legume
nodules. Physiol Plantarum. 109: 372-381.
Becker, M., Diekmann, K.H., Lahda, J., De Datta, S.K. and Ottow, J.C.G. (1991).
Effect of NPK on growth and nitrogen fixation Sesbania rostrata green
manure for lowland rice (Oryza sativa L.). Plant Soil. 132: 149-158.
Bednarz, C.W. and Oosterhuis, D.M. (1999). Physiological changes associated with
potassium deficiency in cotton. J Plant Nutr. 22: 303-313.
Bednarz, C.W., Oosterhuis, D.M. and Evans, R.D. (1998). Leaf photosynthesis and
carbon isotope discrimination of cotton in response to potassium deficiency.
Environ Exp Bot. 39:131-139.
Beemarao, S., Cheruth, A.J., Paramasivam, M., Ashok, K., Amamurthy, S. and
Rajaram, P. (2007). Drought-induced biochemical modifications and proline
metabolism in Abelmoschus esculentus. Acta Bot Croat. 66: 43-56.
Beg, M.Z. and Ahmad, S. (2012). Effect of potassium on moong bean. Indian J L Sci.
1: 109-114.
Begg. J.E. and Turner, N.C. (1976). Crop water deficits. Adv Agron. 28: 161-217.
Behboudian, M.H. and Anderson, D.R. (1990). Effect of potassium deficiency on
water relations and photosynthesis of the tomato plant. Plant Soil. 127: 137-
139.
Behnamnia, M., Kalantari, K.M. and Rezanejad, F. (2009). Exogenous application of
Brassinosteroid Alleviates Drought-Induced Oxidative Stress In Lycopersicon
esculentum L. Gen Appl Plant Physiol. 35: 22-34.
x
Bell, T.D., Koope, D.E. and Miller, R.J. (1971). The effect of drought stress on
respiration of isolated corn mitochondria. Plant Physiol. 48: 413-415.
Benlloch-Gonzalez, M., Arquero, O., Fournier, J.M., Barranco, D. and Benlloch, M.
(2008). K+ starvation inhibits water-stress-induced stomatal closure. J Plant
Physiol. 165: 623–630.
Benlloch-Gonzalez, M., Romera, J., Cristescu, S., Harren, F., Fournier, J.M. and
Benlloch, M. (2010). K+ starvation inhibits water-stress-induced stomatal
closure via ethylene synthesis in sunflower plants. J Exp Bot. 61: 1139-1145.
Bennett, J.M., Albrecht, S.L. and Albrecht. K.A. (1985). Water stress effects on the
water relations and nitrogen fixation of two peanut cultivars. Proc Am Peanut
Res Educat Soc Inc. 17: 66-72.
Beringer, H. (1978). Functions of potassium in plant metabolism with particular
reference to yield. In: Potassium in soil and crops. PRII, New Delhi. 185-202.
Bhardwaj, S.N. Warrier, A. and Singh, K.P. (1987). Effect of water stress on grain
weight in bread wheat. Indian J Plant Physiol. 30: 432-435.
Bhaskaran, S. Smith, R.H. and Newton, R.J. (1985). Physiological changes in cultured
sorghum cells in response to induced water stress. I Free porline. Plant
Physiol. 79: 266-269.
Bisht, S.S., Chaturvedi, K. and Tripathi, A. (1989). Effect of varying levels of
potassium supply on some biochemical constituents and hydrolytic enzymes in
niger. J Potassium Res. 5: 35-41.
Bisseling, T., Vanden Bos, R.C. and Kammen, V.A. (1978). The effect of ammonium
nitrate on the synthesis of nitrogenase and the concentration of
leghaemoglobin in pea root nodules induced by Rhizobium leguminosarum.
Biochem Biophys Acta. 539: 1-11.
Biswas, B.C., Prasad, N. and Tewatia, R.K., (1992). Fertilizer use and crop quality.
Fertilizer News. 39: 47-49.
Blum, A., Ramaiah, S., Kanemasu, E.T. and Paulsen, G.M. (1990). Wheat recovery
from drought stress at the tillering stage of development. Field Crops Res. 24:
67-85.
xi
Boggess, S.F., Aspinall, D. and Paleg, L.G. (1976). Stress metabolism. IX. The
significance of end product inhibition of proline biosynthesis and of
comparatementation in relation to stress induced proline accumulation. Aust J
Plant Physiol. 3: 513-525.
Borges, R. and Mallarino, A.P. (2000). Grain Yield, Early Growth and Nutrient
Uptake of No-Till Soybean as Affected by Phosphorus and Potassium
Placement. Agron J. 92: 380-388.
Bourgault, M., Madramootoo, C.A., Webber, H.A., Stulina, G., Horst, M.G. and
Smith, D.L. (2010). Effects of deficit irrigation and salinity stress on common
bean (Phaseolus vulgaris L.) and Mungbean (Vigna radiata (L.) Wilczek)
Grown in a controlled environment. J Agron Crop Sci. 196: 262-272.
Boyer, J.S. (1971). Recovery of photosynthesis in sunflower afer a period of low
water potential. Plant Physiol. 47: 816-821.
Boyer, J.S. (1976). Water deficits and photosynthesis. In: Water deficit and plant
growth, (ed.) Kozlowski, T.T. Vol. IV pp. 153-190. Academic Press, New
York.
Boyer, J.S. and Bowen, B.L. (1970). Inhibition of oxygen evolution in sunflower at
low leaf water potential. Plant Physiol. 45: 612-615.
Brisson, N. and Casals, M.L. (2005). Leaf dynamics and crop water status throughout
the growing cycle of durum wheat crops grown in two contrasted water budget
conditions. Agron Sustain Dev. 25: 151-158.
Brix, H. (1962). The effect of water stress on the rates of photosynthesis and
respiration in tomato plants and loblolly pine seedlings. Physiol Plant. 15: 10–
20.
Brown, K.W. and Thomas, J.C. (1980). The influence of water stress preconditioning
on dark respiration. Physiol Plant. 49:205-209.
Bukhsh, M.A.A.H., Ahmad, A.R., Iqbal, J., Maqbool M.M., Ali, A., Ishaque, M. and
Hussain, S. (2012). Nutritional and physiological significance of potassium
application in maize hybrid crop production. Pak J Nutr. 11:187-202.
xii
Bukhsh, M.A.A.H., Ahmad, A.R., Malik, A.U., Hussain, S. and Ishaque, M. (2011).
Profitability of three maize hybrids as influenced by varying plant density and
potassium application. J Anim Plant Sci. 21: 42-47.
Bunce, J.A. (1987). Species specific responses to water stress of gas exchange
parameters mimicked by applied ABA. Can J. Bot. 65: 103-106.
Burke, J.J., Patrica, E.G., Terry, L.H. and Jerry, E.Q. (1985). Plant morphological and
biochemical responses to field water deficit. I Response of glutathione
reductase activity and paraquet sensitivity. Plant Physiol. 79: 415-419.
Burman, U., Garg, B.K. and Kathju, S. (2002). Effect of spacing on seed yields and
some physiological traits in mothbean. Indian J Agric Sci. 72: 76-79.
Burritt, D.J. and MacKenzie, S. (2003). Antioxidant metabolism during acclimation of
Begonia_erythrophylla to highlight levels. J Ann of Bot. 91: 783-94.
Buttery, B., Park, S. and Findlay, W. (1987) Growth and Yield of White Bean
(Phaseolus vulgaris L.) in Response to Nitrogen, Phosphorus and Potassium
Fertilizer and to Inoculation with Rhizobium. Can J Plant Sci. 67: 425-432.
Caballero, J.I., Verduzco, C.V., Galan, J. and Jimenez, E.S.D. (2005). Proline
accumulation as a symptom of drought stress in maize: a tissue differentiation
requirement. J Exp Environ Bot. 39: 889-897.
Cadisch, G., Bradley, R.S. Boller, B.C. and Nosberger, J. (1993). Effects of P and K
on N2 fixation (15
N-dilution) of field grown Centrosema acutifolium and C.
macrocarpum. Field Crop Res. 31: 329-340.
Cakmak, I. (2005). The role of potassium in alleviating detrimental effects of abiotic
stresses in plants. J Plant Nutr. 168: 521-530.
Cakmak, I. and Engels, C. (1999). Role of mineral nutrients in photosynthesis and
yield formation. In: Mineral Nutrition of Crops: Mechanisms and
Implications. The Haworth Press, New York, USA, pp. 141-168.
Cakmak, I., Hengeler, C. and Marschner, H. (1994). Partitioning of shoot and root dry
matter and carbohydrates in bean plants suffering from phosphorus, potassium
and magnesium deficiency. J Exp Bot. 45: 1245-1250.
xiii
Carceller, M., Prystupa, P. and Lemcoff, J.H. (1999). Remobilization of proline and
other nitrogen compounds from senescing leaves of maize under water stress.
J Agron Crop Sci. 183: 61-66.
Castillo, L.D., Hunt, S. and Layzell, D.B. (1994). The Role of Oxygen in the
Regulation of Nitrogenase Activity in Drought-Stressed Soybean Nodules.
Plant Physiol. 106: 949-955.
Celik, H., Asik, B.B., Gurel, S. and Katkat, A.V. (2010). Potassium as an intensifying
factor for iron chlorosis. Int J Agr Biol. 12: 359-364.
Chakraborty, K., Bishi, S.K., Singh, A.L., Kalariya, K.A. and Kumar, L. (2013).
Moisture deficit stress affects yield and quality in groundnut seeds. Ind J Plant
Physiol. 18: 136-141.
Chanda, N., Mondal, S.S., Arup, G. and Brahmachari, K. (2002). Effect of potassium
and sulphur on mungbean in relation to growth, productivity and fertility build
up of soil. Interacademicia. 6: 266- 271.
Chandler, P.M. and Robertson, M. (1994). Gene expression regulated by abscisic acid
and its relation to stress tolerance. Annu Rev Plant Physiol. 45: 113-141.
Chandrashekar, K.R. and Sandhyarani, S. (1996). Salinity induced chemical changes
in Crotalaria striata Dc. plants. Ind J Plant Physiol. 1: 44-48.
Change, M.H. (1987). Proline accumulation in water stressed soybean plant. Plant
Physiol. 83: 274.
Chapman, A.L. and Muchow, R.C. (1985). Nitrogen accumulated and partitioned at
maturity by grain legumes grown under different water regimes in a semi-arid
tropical environment. Field Crop Res. 11: 69-79.
Chatterjee, C., Rashmi Nautiyal, N. and Agarwala, S.C. (1986). Potassium
concentration in tissue and metabolic activities with potassium supply in
wheat. J Potassium Res. 2: 41-50.
Chaves, M.M. and Oliveira, M.M. (2004). Mechanisms underlying plant resilience to
water deficits: prospects for water-saving agriculture. J Exp Bot. 55: 2365-
2384.
xiv
Chaves, M.M., Flexas, J. and Pinheiro, C. (2009). Photosynthesis under drought and
salt stress: regulation mechanisms from whole plant to cell. Ann Bot. 103:
551-560.
Chaves, M.M., Pereira, J.S., Maroco, J., Rodrigues, M.L., Ricardo, C.P.P., Osorio,
M.L., Carvalho, I., Faria, T. and Pinheiro, C. (2002). How Plants Cope with
Water Stress in the Field? Photosynthesis and Growth. Ann Bot. 89: 907-916.
Chelkowska, H. and Zielinska, D. (1986). Influence of water stress and ABA on free
proline accumulation in barley leaves. Acta Agro Bot. 36: 59-66
Chen, R.D. and Tabaeizadeh, Z. (1992). Expression and molecular cloning of
drought-induced genes in the wild tomato Lycopersicon chilense. Biochem
Cell Biol. 70: 199-206.
Cheng, Y., Weng, J. and Josh, C.P. (1993). Dehydration stress-induced changes in
translatable RNAs in sorghum. Crop Sci. 30:1397-1400.
Cherel, I. (2004). Regulation of Kþ channel activities in plants: from physiological to
molecular aspects. J Exp Bot. 55: 337-351.
Chkravorti, S.P. (1989). Effect of increasing levels of potassium supply on the content
and uptake of various nutrients by rice. J Potassium Res. 5: 104-114.
Choluj, D., Karwowska, R., Jasinska, M. and Haber, G. (2004). Growth and dry
matter partitioning in sugar beet plants (Beta vulgaris L.) under moderate
drought. Plant Soil Environ. 50: 265-272.
Chopra, R.K. (1983). Mechanism of photosynthetic regulation during water stress.
Plant Physiol Biochem. 10: 192-202.
Choudhary, N.L. (2005). Expression of delta-1-pyrroline-5-carboxylate synthetase
gene during drought in rice (Oryza sativa L.). Ind J Biochem Biophys. 42:
366-370.
Ciha, A.J. and Brun, W.A. (1978). Effect of pod removal on non-structural
carbohydrate concentration in soybean tissue. Crop Sci. 18: 773-776.
Clarke, M.C. (1982). Evaluation of technique for screening drought resistance in
wheat. Crop Sci. 22: 513-516.
xv
Clavel, D., Drame, N.K., Roy-Macauley, H., Braconnier, S. and Laffray, D. (2005).
Analysis of early responses to drought associated with field drought adaptation
in four Sahelian groundnut (Arachis hypogaea L.) cultivars. Environ Exp Bot.
54: 219-230.
Cooke, D.A. and Scott, R.K. (1993). The Sugar Beet Crop. Sciencient Practice
published by Chapman and Hall, London.
Cordon, A.J., Minchin, F.R., Sksot, L. and James, C.L. (1997). Stress-induced
declines in soybean N2 fixation are related to nodule sucrose synthase activity.
Plant Physiol. 114: 937-946.
Cornic, G. and Massacci, A. (1996) Leaf photosynthesis under drought stress, in:
Baker N.R., (Ed.), Photosynthesis and the Environment, Kluwer Academic
Publishers, The Netherlands.
Crasta, O.R. and Cox, W.J. (1996). Temperature and soil water effects on maize
growth, development, yield, and forage quality. Crop Sci. 36: 341-348.
Cui, Y., Pandey, D.M., Hahn, E. and Paek, K. (2004). Effect of drought on
physiological aspects of crassulacean acid metabolism in Doritaenopsis. Plant
Sci. 167: 1219-1226.
Dabas, S. and Sheoran, I.S. (1984). Photosynthesis, respiration and stomatal
conductance in two species of Brassica under water stress. Indian J Plant
Physiol. 27: 177-183.
Dalton, D.A. (1995). Antioxidant defenses of plants and fungi. In: Ahmad S, ed.
Oxidative stress and antioxidant defenses in biology. New York, USA:
Chapman and Hall, 298-355.
Damon, P.M. and Rengel, Z. (2007). Wheat genotypes differ in potassium efficiency
under glasshouse and field conditions. Aust J Agric Res. 58: 816-823.
Das, P.C. (1999). Plant nutrients. In: Manures and Fertilizers. 2nd
Edition. Kalyani
publishers, New Delhi, India. pp. 5-10.
David, W. (2002). Limitation to photosynthesis in water stressed leaves: stomata vs.
metabolism and the role of ATP. Ann Bot. 89: 871-885.
xvi
Davies, W.J. and Zhang, J. (1991). Root signals and the regulation of growth and
development of plant in drying soil. Annu Rev Plant Physiol Plant Mol Biol.
42: 55-76.
De Costa, W., Shanmugathasan, K. N. and Joseph, K. (1999). Physiology of yield
determination of mung bean (Vigna radiata (L.) Wilczek) under various
irrigation regimes in the dry and intermediate zones of Sri Lanka. Field Crops
Res. 61: 1-12.
De Jong, T.M. and Phillips, D.A. (1982). Water stress effects on nitrogen assimilation
and growth of Trifolium suberraneum L. using dinitrogen or ammonium
nitrate. Plant Physiol. 69: 416-430.
De Silva, M., Purcell, L.C. and King, C.A. (1996). Soybean petiole ureide response to
water deficits and decreased transpiration. Crop Sci. 36: 611-616.
De Vries, J.M., Bennett, J.M., Albrecht, S.L. and Boote, K.J. (1989). Water relations,
nitrogenase activity and root development of three grain legumes in response
to soil water deficits. Field Crops Res. 21: 215-226.
De, R. and Kar, R.K. (1995). Seed germination and seedling growth of mungbean
(Vigna radiata) under water stress induced by PEG-6000. Seed Sci Technol.
23: 301-308.
Dean, D.E., Devitt, D.A., Verchick, L.S., and Morris, R.L. (1996). Turfgrass quality,
growth and water use efficiency, salinity and water stress. Agron J. 88: 844-
849.
Debouba, M., Gouia, H., Suzuki, A. and Ghorbel, M.H. (2006). NaCl stress effects on
enzymes involved in nitrogen assimilation pathway in tomato “Lycopersicon
esculentum” seedlings. J Plant Physiol. 163: 1247-1258.
Delgado, M.J., Ligero, F. and Lluch, C. (1994). Effects of salt stress on growth and
nitrogen fixation by pea, faba-bean, common bean and soybean plants. Soil
Biol Biochem. 26. 371-376.
Delouche, J.C. (1980). Environmental effects on seed development and seed quality
Hort Sci. 15: 775-780.
xvii
Deshmukh, V.N. Atre, A.H., Rangacharya, R.P. and Rewatkar, S.S. (1993). Effect of
P and K application on growth, yield, quality and nutrient uptake by
groundnut. J Potassium Res. 9: 72-75.
Devi, S.H. and Kar, M. (2013). Amelioration of moisture stress effect by CaCl2 pre-
treatment in upland rice. Ind J Plant Physiol. 18: 384-387.
Dhindsa, R.S. (1987). Drought stress-induced inhibition of protein synthesis;
mediation by oxidized glutathione. Plant Physiol. 83: 271.
Dhumal, K.N. and Laware, S.L. (2003). Morpho-physiological characterization of
EMS induced mutants in strawberry. 2nd Intl. Cong. Plant Physiol., Jan 8-12,
New Delhi, 57.
Diaz del Castillo, L., Hunt, S. and Layzell, D.B. (1994). The role of oxygen in the
regulation of nitrogenase activity in drought‐stressed soybean nodules. Plant
Physiol. 106: 949-955.
Diaz-del Castillo, L. and Layzell, D.B. (1995). Drought stress, permeability to O2
diffusion and the respiratory kinetics of soybean root nodules. Plant
Physiol. 107: 1187-1194.
Djekoun, A. and Planchon, C. (1991) Water status effect on dinitrogen fixation and
photosynthesis in soybean. Agron J. 83: 316-322.
Dobermann, A. (2004). Crop potassium nutrition implications for fertilizer
recommendations. Department of Agronomy and Horticulture, University of
Nebraska, Lincoln, NE, pp 1-12.
Drevon, J.J. and Hartwig, U.A. (1997). Phosphorus Deficiency Increases the Argon-
Induced Decline of Nodule Nitrogenase Activity in Soybean and Alfalfa.
Planta. 201: 463-469.
Dromantiene, R., Pranckietiene, I., Sidlauskas, G. and Pranckietis, V. (2009). The
effect of fertilisers containing amino acids on winter wheat grain yield and
technological properties. J Zemdirbyste. 96: 97-109.
xviii
Duke, S.H., Collins, M. and Soberalske, R.M. (1980). Effect of potassium fertilization
on nitrogen fixation and nodule enzymes of nitrogen metabolism in alfalfa.
Crop Sci. 20: 213-219.
Durand, J.L., Sheehy, J.E. and Minchin, F.R. (1987). Nitrogenase activity,
photosynthesis and nodule water potential in soyabean plants experiencing
water deprivation. J Exp Bot 38: 311-321.
Durga, K.K., Rao, M.M., Reddy, M.V. and Rao, Y.K. (2003). Effect of early drought
stress on morpho-physiological characters and yield of Mungbean and
Urdbean cultivars. Indian J Pulses Res. 16: 133-135.
Dybing, C.D., Ghiasi, H. and Paech, C. (1986). Biochemical characterization of
soybean ovary growth from anthesis to abscission of aborting ovaries. Plant
Physiol. 81: 1069-1074.
Ebeid, M.M., Adeeba, Al-S and Mariam, A1-M. (1985). Changes in protein content
and RNAase activity of mesquite seedlings in response to drought stress. Beitr
Biol Aflanz. 60: 141-145.
Eghball, B.I. and Maranville, J.W. (1993). Root development and nitrogen influx of
corn genotypes grown under combined drought and nitrogen stress. Agron J.
85: 147-152.
Egila, J.N., Davies, F.T. and Drew, M.C. (2001). Effect of potassium on drought
resistance of Hibiscus rosa-sinensis cv. Leprechaun: plant growth, leaf macro
and micronutrient content and root longevity. Plant Soil. 229: 213-224.
Egilla, J.N., Davies, F.T. and Boutton, T.W. (2005). Drought stress influences leaf
water content, photosynthesis, and water-use efficiency of Hibiscus rosa-
sinensis at three potassium concentrations. Photosynthetica. 43: 135-140.
El-Ashry., Soad, M. and El-Kholy, M.A. (2005). Response of wheat cultivars to
chemical desiccants under water stress conditions. J Appl Sci Res. 1: 253-262.
El-Enany, A.E., AL-Anazi, A.D., Dief, N. and Al-Taisan, W.A. (2013). Role of
antioxidant enzymes in amelioration of water deficit and waterlogging stresses
on Vigna sinensis plants. J Biol Earth Sci. 3: 44-53
xix
Ellen, J. and Van Oene, H. (1989). Effects of light intensity on yield components,
carbohydrate economy and cell wall constituents in spring barley (Hordeum
distichum L.) Neth J Agric Sci. 37: 83-95.
El-Midaoui, M., Serieys, H., Griveau, Y., Benbella, M., Talouizte, A., Berville, A.
and Kaan, F. (2003). Effects of osmotic and water stresses on root and shoot
morphology and seed yield in sunflower (Helianthus annuus L.) genotypes
bred for Morocco or issued from introgression with H. argophyllus T. & G.
and H. debilis Nutt. Helia 26, 1-16.
El-Tayeb, M.A. (2006). Differential response of two Vicia faba cultivars to drought:
growth, pigments, lipid peroxidation, organic solutes, catalase and peroxidase
activity. Acta Agron Hung. 54: 25-37.
Elumalai, R.P., Nagpal, P. and Reed, J.W. (2002). A mutation in the Arabidopsis
KT2/KUP2 potassium transporter gene affects shoots cell expansion. The
Plant Cell. 14:119-131.
Ennajeh, M., Vadel, A.M., Khemira, H., Ben Mimoun, M. and Hellali, R. (2006).
Defense mechanisms against water deficit in two olive cultivars (Meski and
Chemlali). J Hortic Sci Biotech. 81: 99-104.
Ennis, H.L. (1971). Role of potassium in the regulation of polysome content and
protein synthesis in E. coli. Arch Biochem Biophys. 143: 190-200.
Ephrath, J.E., Marani, A. and Bravdo, B.A. (1990). Effect of moisture stress on
stomatal resistance and photosynthetic rate in cotton (Gossypium hirsutum). I.
Controlled levels of stress. Field Crops Res. 23: 117-131.
Epron, D. and Dreyer, E. (1996). Starch and soluble carbohydrates in leaves of water
stressed oak saplings. Ann Sci For. 53: 263-268.
Escalona, J.M., Flexas, J. and Medrano, H. (1999). Stomatal and nonstomatal
limitations of photosynthesis under water stress in field grown grapevine. Aust
J Plant Physiol. 26: 421-433.
Escuredo, P.R., Minchin, F.R., Gogorcena, Y., Iturbe-Ormaetxe, I., Klucas, R.V. and
Becana, M. (1996). Involvement of activated oxygen in nitrate-induced
senescence of pea root nodules. Plant Physiol. 110: 1187-1195.
xx
Evans, H.J. and Wildes, R.A. (1971). Potassium and its role in enzyme activation. In:
Proc. 8th
Colloq. Intern. Potash Inst. Berne, pp. 13-39.
Evenson, R.E. and Gollin, D. (2003). Assessing the impact of the green revolution,
1960 to 2000. Science. 300: 758-762.
Ezzat, M.A., Noormohammadi, G., Ghodsi, M. and Kafi, M. (2010). Effect of water
stress and spraying of potassium iodide on agronomic traits and grain yield of
bread wheat (Tiriticum aistivum L.) genotypes. Iran J Field Crops Res. 8: 21.
Fanaei, H.R., Galavi, M., Kafi, M. and Bonjar, A.G. (2009). Amelioration of water
stress by potassium fertilizer in two oilseed species. Int J Plant Prod. 3: 41-54.
Fanaei, H.R., Galavi, M., Kafi, M., Bonjar, A.G. and Shirani-Rad, A.H. (2011). Effect
of drought stress and potassium on solutes accumulation and chlorophyll of
canola (B. napus L.) and Indian mustard (B. juncea L.). JWSS- Isfahan
University of Technology. 15: 141-156.
Farah, S.M. (1979). Effect of CCC and water regime on growth, yield and water use
of spring wheat. J Expt Bot. 20: 658-663.
Farhad, M.S., Babak, A.M., Reza, Z.M., Mir Hassan, R.S. and Afshin, T. (2011).
Response of proline, soluble sugars, photosynthetic pigments and antioxidant
enzymes in potato (Solanum tuberosum L.) to different irrigation regimes in
greenhouse condition. Aust J Crop Sci. 5: 55-60.
Farooq, M., Wahid, A., Kobayashi, N., Fujita, D. and Basra, S.M.A. (2009). Plant
drought stress: effects, mechanisms and management. Agron Sustain Dev. 29:
185-212.
Farooq, S. and Azam, F. (2006). Cell membrane stability technique for screening
wheat for salt tolerance. J Plant Physiol. 163: 629-637.
Farooq, U. and Bano, A. (2006). Effect of Abscisic acid and Chlorocholine chloride
on nodulation and biochemical content of Vigna radiata L. under water stress.
Pak J Bot. 38: 1511-1518.
Farouk, S. (2011). Ascorbic acid and α-tocopherol minimize saltinduced wheat leaf
senescence. J Stress Physiol Biochem. 7: 58-79.
xxi
Fathy, M.F., Motagally, A. and Attia, K.K. (2009). International Journal of
Agriculture and Biology. 11: 695-700.
Fellow, R.J., Patterson, R.P., Rapper, C.D. and Harris, D. (1984). Nodule activity and
allocation of photosynthate of soybean during recovery from water stress.
Plant Physiol. 84: 456-460.
Ferrari, T.E. and Varner, J.E. (1971). Intact tissue assay for nitrite reductase in barley
aleurone layers. Plant Physiol. 47: 790-794.
Figueiredo, M.V.B., Burity, H.L.A., Martinez, C.R. and Chanway, C.P. (2008).
Alleviation of drought stress in the common bean (Phaseolus vulgaris L.) by
co-inoculation with Paenibacillus polymyxa and Rhizobium tropici. Appl Soil
Ecol. 40: 182-188.
Fischer, C. and Holl, W. (1991). Food reserves of Scots pine (Pinus sylvestris L.). I.
Seasonal changes in the carbohydrate and fat reserves of pine needles. Trees.
5: 187-195.
Flexas, J., Bota, J., Loreto, F., Cornic, G. and Sharkey, T.D. (2004). Diffusive and
metabolic limitations to photosynthesis under drought and salinity in C3
plants. Plant Biol. 6: 269-279.
Flexas, J., Diaz-Espejo, A., Galmes, J., Kaldenhoff, R., Medrano, H. and Ribas-
Carbo, M. (2007). Rapid variations of mesophyll conductance in response to
changes in CO2 concentration around leaves. Plant Cell Environ. 30: 1284-
1298.
Fooladivanda, Z., Hassanzadehdelouei, M. and Zarifinia, N. (2014). Effects of water
stress and potassium on quantity traits of two varieties of mung bean (Vigna
radiata L.). Cercetari Agronomice in Moldova. 47: 107-114.
Ford, C.W. (1984). Accumulation of low molecular weight solutes in stressed tropical
legumes. Phytochem. 23: 1007-1016.
Ford, C.W. and Wilson, J.R. (1981). Changes in levels of solutes during osmotic
adjustment to water stress in leaves of four tropical pasture species. Aust J
Plant Physiol. 8: 77-91.
xxii
Foroud, N., Mundel, H.H., Saindon, G. and Entz, T. (1993). Effect of level and timing
of moisture stress on soybean yield, protein, and oil response. Field Crops Res.
31: 195-209.
Foster, J.G., Shen, L. and Orcutt, D.M. (1987). Changes in the distribution and
composition of fee amino acids in flat pea plants subjected to drought stress.
Plant Physiol. 83: 196-204.
Fougereux, J.A., Dore, T., Ladonne, F. and Fleury, A. (1997). Water stress during
reproductive stages affects seed quality and yield of pea. Crop Sci. 37: 1247-
1252.
Foulkes M.J., Scott, R.K. and Sylvester-Bradley, R. (2001). The ability of wheat
cultivars to withstand drought in UK conditions: formation of grain yield. J
Agri Sci. 38: 153-169.
Foyer, C.H., Vanacker, H., Gomez, L.D. and Harbinson, J. (2002). Regulation of
photosynthesis and antioxidant metabolism in maize leaves at optimal and
chilling temperatures: Review. Plant Physiol Biochem. 40: 659-668.
Francisco, G.S., James, P.S., Vincente, G., Pablo, B. and Jaun, G.P.P. (2007).
Responses to flooding and drought stress by two citrus rootstock seedlings
with different water-use efficiency. Physiol Plant. 130: 532-542.
Frederick, J.R., Alm, D.M., Hesketh, J.D. and Below, F.E. (1990). Overcoming
drought induced decrease in soybean leaf photosynthesis by measuring with
CO2-enriched air. Photosynthesis Res. 25: 49-57
Fresneau, C., Ghashghaie, J. and Cornic, G. (2007). Drought effect on nitrate
reductase and sucrose-phosphate synthase activities in wheat (Triticum durum
L.): role of leaf internal CO2. J Exp Bot. 1-10.
Fusheng, L. (2006). Potassium and Water Interaction. International Workshop on Soil
Potassium and K Fertilizer Management (IPIISSAS). Agricultural College,
Guangxi University, Zhuhai City, China, pp. 1-32.
Galevz, L., Gonzalez, M.E. and Arrese-Igor, C. (2005). Evidence for carbon flux
shortage and strong carbon/nitrogen interactions in pea nodules at early stages
of water stress. J Exp Bot. 56: 2551-2561.
xxiii
Garg, B.K. (2003). Nutrient uptake and management under drought: nutrient-
moisture interaction. Curr Agric. 27: 1-8.
Garg, B.K., Burmin, U. and Kathju, S. (2005). Physical aspects of drought tolerance
in cluster bean and strategies for yield improvement under arid conditions. J
Arid Legumes. 2: 61-66.
Garg, B.K., Vyas, S.P., Kathju, S. and Lahiri, A.N. (1998). Influence of water deficit
stress at various growth stages on some enzymes of nitrogen metabolism and
yield in cluster bean genotypes. J Plant Physiol. 3: 214-218.
Ge, T.D., Sun, N.B., Bai, L.P., Tong, C.L. and Sui, F.G. (2012). Effects of drought
stress on phosphorus and potassium uptake dynamics in summer maize (Zea
mays) throughout the growth cycle. Acta Physiol Plant. 34: 2179-2186.
Genkel, P.A., Satarova, N.A. and Tvorus, E.K. (1967). Effect of Drought on Protein
Synthesis and the State of Ribosome in Plants. Fiziol Rast. 14: 898-907.
Gerakis, P.A., Geurrero, F.P. and Williams, W.A. (1975). Growth, water relations and
nutrition of three grassland annuals as affected by drought. J Appl Ecol. 12:
125.
Gerardeaux, E., Jordan-Meille, L., Constantin, J., Pellerin, S. and Dingkuhn, M.
(2010). Changes in plant morphology and dry matter partitioning caused by
potassium deficiency in Gossypium hirsutum (L.). Environ Exp Bot. 67: 451-
459.
Gething, P.A. (1990). Potassium and water relationships. In: Potash facts. IPI, Bern.
Ghanbari, A.A., Mousavi, S.H., Mousapour gorji, A. and Rao, I. (2013). Effects of
water stress on leaves and seeds of bean (Phaseolus vulgaris L.). Turk J Field
Crops. 18: 73-77.
Ghashghaie, J., Duranceau, M., Badeck, F.W., Cornic, G., Adeline, M.T. and Deleens,
E. (2001) δ13C of CO2 respired in the dark in relation to δ13
C of leaf
metabolites: Comparison between Nicotiana sylvestris and Helianthus
annuus under drought. Plant Cell Environ. 24: 505-515.
xxiv
Ghassemi-Golezani, K., Lotfi, R. and Norouzi, M. (2012). Seed quality of soybean
cultivars affected by pod position and water stress at reproductive stages. Int J
Pl An and Env Sci. 2: 119-125.
Ghourab, M.H.H., Wassel, O.M.M. and Raya, N.A.A. (2000). Response of cotton
plants to foliar application of (Pottasin-P) TM under two levels of nitrogen
fertilizer. Egypt J Agric Res. 78: 781-793.
Girousse, C., Bournitreville, R. and Bnnemain, J.L. (1996). Water deficitinduced
changes in concentration in proline and some other amino acids in the phloem
sap of alfalfa. Plant Physiol. 111: 109-113.
Gogorcena, Y., Gordon, A.J., Escuredo, P.R., Minchin, F.R., Witty, J.F., Moran, J.F.
and Becana, M. (1997). N2 fixation, carbon metabolism, and oxidative damage
in nodules of dark-stressed common bean plants. Plant Physiol. 113: 1193-
1201.
Gogorcena, Y., Iturbe-Ormaetxe, I., Escuredo, P.R. and Becana, M. (1995).
Antioxidant defenses against activated oxygen in pea nodules subjected to
water stress. Plant Physiol. 108: 753–759.
Gonzalez, E.M., Gordon, A.J., James, C.L. and Arrese-Igor, C. (1995). The role of
sucrose synthase in the response of soybean nodules to drought. J Exp Bot. 46:
1515-1523.
Gonzalez-Meler, M.A., Matamala, R. and Penuelas, J. (1997). Effects of prolonged
drought stress and nitrogen deficiency on the respiratory O2 uptake of bean
and pepper leaves. Photosynthetica. 34: 505–512.
Good, A.G. and Zaplachinski, S.T. (1994). The effects of drought stress on free amino
acid accumulation and protein synthesis in Brassica napus. Physiol Plant. 90:
9-14.
Gorai, M., Hache, F.A. and Neffati, M. (2010). Differential responses in growth and
water relationship of Medicago sativa (L.) cv. Gabes and Astragalus
gombiformis (Pom.) under water-limited conditions. Emirates J of Food and
Agri. 22: 1-12.
xxv
Gordon, A.J., Minchin, F.R., Skot, L. and James, C.L. (1997). Stress‐induced declines
in soybean N2 fixation are related to nodule sucrose synthase activity. Plant
Physiol. 114: 937-946.
Gormus, O. (2002). Effects of rate and time of potassium application on cotton yield
and quality in Turkey. J Agron Crop Sci. 188: 382-388.
Goswami, B.K. and Srivastava, G.C. (1985). Effect of ascorbic acid and Zeatin on
water stress induced photosynthesis and respiration in sunflower leaves. Indian
J Plant Physiol. 28: 350-357.
Goswami, R.K., Hireman S.M., Chetti, M.B., Salimth, P.M. and Koti, R.V. (2003).
Physiological basis for higher productivity in greengram. 2nd Intl. Cong. Plant
Physiol. Jan 8: 12-20.
Govinda, K. and Thirumurugan V. (2000). Response of greengram to foliar nutrition
of potash. J Maharashtra Agric Univ. 25: 3025-3030.
Grant, R.F., Daughtry, C.S.T., Kiniry, J.R. and Arkin, G.F. (1989). Water deficit
timing effects on yield components in maize. Agron J. 81: 61-65.
Greenway, H. and Munns, R. (1980). Mechanism of salt tolerance in nonhalophytes,
Ann Rev Plant Physiol. 31: 149-190.
Guan, Y.X., Dai, J.Y., Chen, J. and Xu, S.C. (1996). Relationship between
accumulation of free proline in corn leaves and their drought resistance under
dry soil condition. J Maize Sci. 4: 43-45.
Guerin, V., Trinchant, J.C. and Rigaud, J. (1990). Nitrogen fixation (C2H2 reduction)
by broad bean (Vicia faba) nodules and bacteroids under water-restricted
conditions. Plant Physiol. 92: 595-601.
Guerin, V., Pladys, D., Trinchant, J.C. and Rigaud, J. (2006). Proteolysis and nitrogen
fixation in faba-bean (Vicia faba) nodules under water stress. Physiol
Plantarum. 82: 360-366.
Gujarathi, B.G., Hegde, B.A. and Patil, T.M. (1984). Relative efficiency of
photosynthetic carboxylation and enzyme activities in sorghum genotypes and
xxvi
peanut under water stress. Proceeding of the VIth International congress on
Photosynthesis. Brussels, Belgium. Advances in Photosynthesis. 4: 3480.
Guler, N.S., Aykut, S., Mahmet, D. and Asim, K. (2011). Apoplastic and symplastic
solute concentrations contribute to osmotic adjustment in bean genotypes
during drought stress. Turk J Biol. 36: 151-160.
Gummuluru, S., Hobbs, S.L.A. and Jana, S. (1989). Physiological response of drought
tolerant and drought susceptible durum wheat genotypes. Photosynthetica. 23:
479-485.
Gupta, B. and Haung, B. (2014). Mechanisim of salinity tolerance in plants:
Physiological, biochemical, and molecular characterization. Int J Genomics.
1-18.
Gupta, M.L., Ahuja, K.L., Raheja, R.K. and Labana, K.S. (1988). Variation for
biochemical quality traits in promising genotypes of Indian mustard. J Res. 25:
1-5.
Gupta, P.C. and Pandey, R.K. (1988). Response of lentil to different irrigation
schedules. Lens Newsletter. 15: 20-22.
Gupta, S.K. and Wagle, D.S. (1989). Influence of season and seed position on fatty
acid composition of polar and non-polar lipid fractions of developing seeds of
sunflower (Helianthus annuus L.) J Oilseeds Res. 6: 181-186.
Gupta. N.K., Gupta, S. and Kumar, A. (2001). Effect of water stress on physiological
attributes and their relationship with growth and yield in wheat cultivars at
different growth stages. J Agron. 86: 1437-1439.
Haeder, H.E., Mengel, K. and Forster, H. (1973). The effect of potassium on
translocation of photosynthates and yield pattern of potato plants. J Sci Fd
Agric. 24: 1479-1487.
Hall, A.J., Chimenti, C.A., Vilella, F. and Frieier, G. (1985). Timing of water stress
effects on yield components in sunflower. In: Proc. XI Intern. Sunflower
Confer. 10-13 March, 1985. Mardel Palta, Argentina, pp. 131-136.
xxvii
Hall, A.J., Whitfield, D.M. and Connor, D.J. (1990). Contribution of pre-anthesis
assimilates to grain-filling in irrigated and water-stressed sunflower crops. II.
Estimates from carbon budget. Field Crops Res. 24: 273-294.
Hamid, A., Kubota, F., Agata, W. and Morokumo, M. (1991). Photosynthesis,
Transpiration, dry matter accumulation and yield performance of mungbean
plant in response to water stress. Field Crop Abst. 44: 7406.
Hammad, S.A.R. and Ali, O.A.M. (2014). Physiological and biochemical studies on
drought tolerance of wheat plants by application of amino acids and yeast
extract. Ann. Agric. Sci. 59: 133-145.
Han, S.H. (1991). Ultrastructural changes in rape chloroplast during drought
treatments. Acta Agron Sinica. 17: 311-313
Hanson, A.D., Nelson, C.E. and Eversen, E.H. (1977). Evolution of free proline
accumulation as an index for drought resistance using two contrasting barley
cultivars. Crop Sci. 17: 720-726.
Hanway, J.J. and Johnjon, J.W. (1985). Potassium nutrition of soybeans. In: Robert D.
Manson (ed). Potassium in Agriculture. pp. 378-379.
Haq, M.U. and Mallarino, A.P. (2005). Response of soybean grain oil and protein
concentrations to foliar and soil fertilization. Agron J. 97: 910-918.
Haqqani, A.M., and Pandey, R.K. (1994). Response of mungbean to water-stress and
irrigation at various growth-stagesand plant densities: 2. Yield and yield
components. Trop Agric. 71: 289-294
Hardy, R.W., Holsten, R.D., Jackson, E.K. and Burns, R.C. (1968). The acetylene-
ethylene assay for nitrogen fixation: laboratory and field evaluation. Plant
Physiol. 43: 1185-1207.
Hare, P.D., Cress, W.A. and Staden, J.V. (1998). Proline Synthesis and Degradation:
a Model System for Elucidating Stress-related signal Transduction. J Exp Bot.
50: 413-414.
Hartree, E.F. (1955). Haematin compounds. In: Modern methods of plant analysis
peach, K. and Trecey, M.V., Springer-verlag, pp. 197-245.
xxviii
Hartt, C.E. (1972). Translocation of 14C in sugarcane plants supplied with or
deprived of potassium. Plant Physiol. 49: 569-571.
Hasan, S.A., Hayat, S., Ali, B. and Ahmad, A. (2008). 28-homobrassinolide protects
chickpea (Cicer arietinum) from cadmium toxicity by stimulating
antioxidants. Environ Pollut. 151: 60-66.
Hassid, W.Z. and Neufeld, B.F. (1964). Quantitative determination of starch in plant
tissues. In: Methods in carbohydrates Chemistry (ed.) Wistler, R.L. Vol. IV,
New York. Pp. 33-36.
Hatami, H., Ayenehband, A., Azizi, M., Soltani, A. and Dadkhan, A.R. (2010). Effect
of potassium fertilizer on growth and yield of soybean cultivars in North
Khorasan. J Crop Ecophysiol. 2: 75-90.
Haupt-Herting, S., Klug, K. and Fock, H.P. (2001). A new approach to measure gross
CO2 fluxes in leaves. Gross CO2 assimilation, photorespiration, and
mitochondrial respiration in the light in tomato under drought stress. Plant
Physiol. 126: 388-396.
Havaux, M., Canaani, O. and Malkin, S. (1987). Inhibition of photosynthetic activities
under slow water stress measured in vivo by photoacoustic method. Physiol
Plant. 70: 503-510.
Hayat, S., Hayat, Q., Alyemeni, M.N. and Ahmad, A. (2013). Proline enhances
antioxidative enzyme activity, photosynthesis and yield of Cicer arietinum L.
exposed to cadmium stress. Acta Bot Croat. 72: 323-335.
Hermans, C., Hammond, J.P., White, P.J. and Verbruggen, N. (2006). How do plants
respond to nutrient shortage by biomass allocation? Trends Plant Sci. 11: 610-
617.
Hernandez, T. (1980). Influence of Soil Moisture Content at Different Growth Stages
on Yield of Maize in the State of Morelos. Field Crop Absts. 36: 2240.
Herridge, D.F. and Pale, J.S. (1977). Utilization of net photosynthate for nitrogen
fixation and Protein Production in an annual legume. Plant Physiol. 60: 759-
764.
xxix
Heuer, B. (1994). Osmoregulatory role of proline in water- and salt-stressed plants.
In: Pessarakli, M. and Marcel Dekker (Eds.), Handbook of plant and crop
stress Inc. New York. pp: 363.
Heuer, B. and Nadler, A. (1995) Growth and development of potatoes under salinity
and water deficit. Australian J Agri Res. 46: 1477-1486.
Heydarnezhad, S. and Fordoie, A.R. (2014). Differential accumulation 0f phyto-
biochemical parameters in Etra (Calligonum comosum Herit) plants against
water deficiency. Int J Forest Soil Erosion. 3: 96-100.
Hoekstra, F.A., Golovina, E.A. and Buitink, J. (2001). Mechanism of plant
desiccation tolerance. Trends Plant Sci. 6: 431-438.
Hooda, R. (1987). Partitioning and utilization of photosynthate for dry matter
production and nitrogen fixation under water stress in chickpea (Cicer
arietinum L.) Ph.D. Thesis, H.A.U. Hisar (Haryana).
Hooda, R.S., Rao, A.S., Luthra, Y.P., Sheoran, I.S. and Singh, R. (1986). Partitioning
and utilization of carbon and nitrogen for dry matter and protein production of
chickpea. J Exp Bot. 37: 1492-1502.
Howard, D.D., Essington M.E, Gwathmey, C. and Percell, W.M. (2000). Buffering of
foliar potassium and boron solutions for no-tillage cotton production. J Cotton
Sci. 4: 237-244.
Hsiao, T.C. (1970). Rapid Changes in the Levels of Polyribosomes in Zea mays in
Reponse to water Stress. Plant Physiol. 46: 281-285.
Hsiao, T.C. (2000). Leaf and root growth in relation to water status. Hort Sci. 35:
1051-1058.
Hsiao, T.C. and Lauchli, A. (1986). Role of potassium in plant water relations. In:
Advances in Plant Nutrition. (eds.) Tinker, B. and Lauchli, A Vol. 2 pp. 281-
312. Praeger, New York.
Hsu, Z., Hsu, Y.T. and Kao, C.H. (2003). The effect of polyethelene glycol on proline
accumulation in rice leaves. Biol. Plant. 46: 73-78
xxx
Huang, C.Y., Boyer, J.S. and Vanderhoef, L.N. (1975). Limitation of acetylene
reduction (nitrogen fixation) by photosynthesis in soybean having low water
potentials. Plant Physiol. 56: 228-232.
Huber, S.C. and Huber, J.L. (1996). Role and regulation of sucrose phosphate
synthase in higher plants. Annu Rev Plant Physiol. Plant Mol Biol. 47: 432-
444.
Huda, A.K.S. and Virmani, S.M. (1987). Agroclimatic environment of chickpea and
pigeonpea. In. N.P. Saxena, N.e. Gopalachari, e.L. Garver and C. Johansen
(eds.). Adaptation of Chickpea and Pigeonpea to Abiotic Stresses: ICRISAT,
AP., India; pp.15-31.
Humble, G.D. and Raschke, K. (1971). Stomatal opening quantitatively related to
potassium transport. Plant Physiol. 48: 447-453.
Hungria, M. and Vargas, M.A.T. (2000). Environmental factors affecting N2 fixation
in grain legumes in the tropics, with an emphasis on Brazil. Field Crop Res.
65: 151-164.
Hunt, S. and Layzell, D.B. (1993). Gas exchange of legume nodules and the
regulation of nitrogenase activity. Annual Review of Plant Physiology and
Plant Molecular Biology. 44: 483-511.
Hussain, A., Ghaudhry, M.R., Wajad, A., Ahmed, A., Rafiq, M., Ibrahim, M. and
Goheer, A.R. (2004). Influence of water stress on growth, yield and radiation
use efficiency of various wheat cultivars. Intl J Agric Biol. 6: 1074-1079.
Hussain, F., Malik, A.U., Haji M.A. and Malghani, A.L. (2011). Growth and yield
response of two cultivars of mungbean (Vigna radiata L.) to different
potassium levels. J Anim Plant Sci. 21: 622-625.
Hussain, M., Malik, M.A., Farooq, M., Ashraf, M.Y. and Cheema, M.A. (2008).
Improving drought tolerance by exogenous application of glycinebetaine and
salicylic acid in sunflower. J Agron Crop Sci. 194: 193- 199.
Hussain, T.A. (1994). Effect of NPK application on the growth and yield of
mungbean (Vigna radiata L.) Agron. 37:549-551.
xxxi
Hussain, Z., Khattak, R.A., Irshad, M. and Eneji, A.E. (2013). Ameliorative effect of
potassium sulphate on the growth and chemical composition of wheat
(Triticum aestivum L.) in salt-effected soils. J Soil Sci Plant Nutr. 13: 401-415.
Ibarra-Cabarello, J., Verduzco, C.V., Galan, J.M. and Jimenen, E.S. (1988). Proline
accumulation as a symptom of drought stress in maize: A tissue differentiation
requirement. J Exp Bot. 39: 889-897.
Ibrahim, A.K. (1992). Studies on the growth and yield of chickpea. Dissertation Abst
Internl Biol Sci Engin. 52: 3370.
ICRISAT (2009). Annual Report, ICRISAT (International Crops Research Institute
for the Semi-Arid Tropics), India, pp. 1-76.
Ihsan, M.Z., Shahzad, N., Kanwal, S., Naeem, M., Khaliq, A., El-Nakhlawy, F.S. and
Matloob, A. (2013). Potassium as foliar supplementation mitigates moisture
induced stresses in mungbean (Vigna radiata L.) as revealed by growth,
photosynthesis, gas exchange capacity and Zn analysis of shoot. Intl J
Agron Plant Prod. 4: 3828-3835.
IIPR perspective plan, Vision 2025. (2007). Indian Institute of Pulses Research,
Kanpur, India.
Ike, I.F. (1982). Effect of water deficts on transpiration, photosynthesis and leaf
conductance in Cassava. Physiol Plant. 55: 411-414.
Imas, P. and Magen, H. (2008). Role of potassium nutrition in balanced fertilization
for soybean yield and quality - Global perspective. In: Recent Advances in
Potassium Nutrition Management for Soybean Based Cropping Systems, eds.
A. K. Vyas and P. Imas, pp. 1–20. Indore, India: National Research Centre for
Soybean.
Irigoyen, J.J., Emerich, D.W. and Sanchez-Diaz, M. (1992a). Phosphoenol pyruvate
carboxylase, malate and alcohol dehydrogenase activities in alfalfa (Medicago
sativa) nodules under water stress. Physiol Plant. 84: 61-66.
Irigoyen, J.J., Emerich, D.W. and Sanchez-Diaz, M. (1992b). Water stress induced
changes in concentrations of proline and total soluble sugars in nodulated
alfalfa (Medicago sativa) plants. Physiol Plant. 84: 55-60.
xxxii
Islam, M.S., Haque, M.M., Khan, M.M., Hidaka, T. and Karim, M.A. (2004). Effect
of fertilizer potassium on growth, yield and water relations of bushbean
(Phaseolus vulgaris L.) under water stress conditions. Jpn J Trop Agr. 48: 1-9.
Ismail, I.M.R., Davies, W.J. and Awad, M.H. (2002). Leaf growth and stomatal
sensitivity to ABA in droughted pepper plants. Scientia Hort. 96: 313-327.
Itoh, R. and Kumara, A. (1987). Acclimation of soybean plants to water deficit. V.
Contribution of potassium and sugar to osmotic concentration in leaves. Jap J
Crop Sci. 56: 678-684.
IturbeOrmaetxe, I., Escuredu, P.R., Arrese- Igor, C. and Becana, M. (1998). Oxidative
damage in pea plants exposed to water deficit or paraquat. Plant Physiol. 116:
173-181.
Izanloo, A., Condon, A.G., Langridge, P., Tester, M. and Schnurbusch, T. (2008).
Different mechanisms of adaptation to cyclic water stress in two South
Australian bread wheat cultivars. J Exp Bot. 59: 3327-3346.
Jabeen, F., Shahbaz, M. and Ashraf, M. (2008). Discriminating some prospective
cultivars of maize (Zea mays L.) for drought tolerance using gas exchange
characteristics and proline contents as physiological markers. Pak J Bot. 40:
2329-2343.
Jackson, G.D., Kushnak, G.D., Benson, A.N., Skogley, E.O. and Lund, R.E. (1991).
Potassium response in no-till small grain production. J Fert Issues. 8: 89-92
Jaidayal, A., Nandwal, A.S. and Kaur, H. (1993). Gas exchance and water relation
studies in cycocel treated pigeonpea in response to water stress Indian J Plant
Physiol. 36: 263-265.
Jain, R.C. and Dikshit, P.R. (1984). Effect of phosphorus and potassium of kernel
yield in groundnut. J Res. 18: 302-304.
Jain, R.C. Nema, D.P., Khandwe, R. and Thakur, R. (1990). Effect of phosphours and
potassium on yield, nutrient uptake, protein and oil contents of groundnut
(Arachis hypogaea). Indian J Agric Sci. 60: 559-561.
xxxiii
Jaleel, C.A., Gopi, R., Sankar, B., Gomathinayagam, M. and Panneerselvam, R.
(2008a). Differential responses in water use efficiency in two varieties of
Catharanthus roseus under drought stress. Comp Rend Biol. 331: 42-47.
Jaleel, C.A., Manivannan, P., Lakshmanan, G.M.A., Gomathinayagam, M. and
Panneerselvam, R. (2008b). Alterations in morphological parameters and
photosynthetic pigment responses of Catharanthus roseus under soil water
deficits. Colloids Surf. B: Biointerfaces. 61:298-303.
Janardhan, K.V., Murty, K.S. and Dash, N.B. (1980). Effects of stress during ripening
period on grain yield and translocation of assimilates in rice. Ind J Plant
Physiol. 23: 163-168.
Javadi, T., Arzani, K. and Ebrahimzadeh, H. (2008). Study of proline, soluble sugar
and chlorophyll a and b changes in nine Asian and one European peer cultivar
under drought stress. Acta Hortic. 769: 241-246.
Jaworski, E.G. (1971). Nitrate reductase assay in intact plant tissues. Biochem
Biophys Res Commun. 43:1274-1279.
Jayant, K.S. and Sarangi, S.K. (2014). Effect of drought stress on proline
accumulation in peanut genotypes. Int J Adv Res. 2: 301-309.
Jensen, C.R. and Tophoj, H. (1985). Potassium induced improvement of yield
response in barley exposed to soil water stress. Irrig Sci. 6: 117-129.
Jensen, C.R., Anderson, M.N. and Losch, R. (1992). Leaf water relations
characteristics of differently potassium fertilized and watered field grown
barely plants. Plant Soil. 140: 225-239.
Jiang, Y. and Huang, B. (2002). Protein alternations in tall fescue in response to
drought stress and abscisic acid. Crop Sci. 42: 202-207.
Jin, S.H., Huang, J.Q., Li, X.Q., Zheng, B.S., Wu, J.S., Wang, Z.J., Liu, G.H. and
Chen, M. (2011). Effects of potassium supply on limitations of photosynthesis
by mesophyll diffusion conductance in Carya cathayensis. Tree Physiol. 31:
1142-1151.
Jones, T.J., Hyland, A.R., Robinson, G., Smith, R. and Thomas, J. (1980). ApJ.
242:132.
xxxiv
Jordan, W.R. and Ritichie, J.T. (2002). Influence of soil water stress on evaporation,
root absorption and internal water status of cotton. Plant Physiol. 48:783-788.
Joshi, M. and Rudraradhya, M. (1993). Effect of differential doses of potassium on
yield of soybean. J Pot Res. 9: 388-391.
Kage, H., Kochler, M. and Stutzel, H. (2004). Root growth and dry matter partitioning
of cauliflower under drought stress conditions: measurement and simulation.
European J Agron. 20: 379-394.
Kala, S. and Godara, A.K. (2011). Effect of moisture stress on leaf total proteins,
proline and free amino acid content in commercial cultivars of Ziziphus
mauritiana. J Sci Res. 55: 65-69.
Kallarackal J., Milburn, J.A. and Baker, D.A. (1990). Water relations of the banana.
III effects of controlled water stress on water potential, transpiration,
photosynthesis and leaf growth. Aust J Plant Physiol. 17: 79-90.
Kamara, A.Y., Menkir, A., Badu-Apraku, B. and Ibikunle, O. (2003). The influence
of drought stress on growth, yield and yield components of selected maize
genotypes. J Agric Sci. 141: 43-50
Kamran, M., Shahbaz, M., Ashraf, M. and Akram, N.A. (2009). Alleviation of
drought-induced adverse effects in spring wheat (Triticum aestivum L.) using
proline as a pre-sowing seed treatment. Pak J Bot. 41: 621-632.
Kant, S. and Kafkafi, U. (2002). Potassium and Abiotic Stresses in Plants. In:
Pasricha N.S., Bansal S.K., editors.Potassium for Sustainable Crop
Production. Potash Institute of India; Gurgaon, India: 2002. pp. 233–251.
Kar, M., Mythili, J.B. and Nair, T.V.R. (1991). Carbondioxide fixation in the nodules
of amide transporting vs. ureide transporting legumes. J Nuclear Agric Biol.
19: 257-260.
Kataria N. and Singh N. (2013). Amelioration of water stress by potassium fertilizer
in chickpea (Cicer arietinum L.). J Trop Plant Physiol. 5: 22-32.
Kataria, N. and Singh, N. (2014). Assessing the effects of applied potassium on
selected Vigna Radiata L. genotypes under water deficit. Int J Adv Res. 2:
369-385.
xxxv
Kaur, A., Sheoran, I.S. and Singh, R. (1985). Effect of water stress on the enzymes of
nitrogen metabolism in mung bean (Vigna radiata Wilczeck) nodules. Plant
Cell Environ. 8: 196-200.
Kaya, M.D., Okcub, G., Atak, M., Cikilic, Y. and Kolsaricia, O. (2006) .Seed
treatments to overcome salt and drought stress during germination in
sunflower (Helianthus annuus L.). Eur J Agron. 24: 291-295.
Kerepesi, I. and Galiba, G. (2000). Osmotic and salt stress-induced alteration in
soluble carbohydrate content in wheat seedlings. Crop Sci. 40: 482-487.
Keyvan, S. (2010). The effects of drought stress on yield, relative water content,
proline, soluble carbohydrates and chlorophyll of bread wheat cultivars
content, proline, soluble carbohydrates and chlorophyll of bread wheat
cultivars. J Anim Plant Sci. 8: 1051-1060.
Khan, A.H., Mujtaba, S.M. and Khanzada, B. (1999). Responses of growth, water
relation and solute accumulation in wheat genotypes under water deficit. Pak J
Bot. 1: 461-468.
Khan, M.B., Hussain, N. and Iqbal, M. (2001). Effect of water stress on growth and
yield components of maize variety YHS202. J Res. 12: 15-18.
Khan, N.A. (1991). Ameliorating water stress by potassium in mustard. Plant Physiol
Biochem. 18: 80-83.
Khanna-Chopra, R., Chaturvedi, G.S. Agarwala, P.K. and Sinha, S.K. (1980). Effect
of potassium on growth and niturate reductase activity during water stress and
recovery in maize. Physiol Plant. 49: 495-500.
Khanna-Chopra, R., Koundal, K.R. and Sinha, S.K. (1984). A simple technique of
studying water deficit effects on nitrogen fixation in nodules without
influencing the whole plant. Plant Physiol. 76: 254-256.
Khanna-Chopra, R., Moinuddin, V.S. and Bahukhandi, D. (1994). K+ osmotic
adjustment and drought tolerance: an overview. Proc Ind Nat Sci Acad. 61:
51-56.
xxxvi
Khanna-Chopra, R., Chaturverdi, G.S., Aggarwal, P.K. and Sinha, S.K. (2006). Effect
of potassium on growth and nitrate reductase during water stress and recovery
in maize. Physiol Plant. 4: 495-500.
Khondakar, Z.H., Aslam, A., Rehman, S. and Khan, T.H. (1983). Influence of soil
moisture stress on yield, grain quality, availability and uptake of N, P and K
by wheat. Int J Tropical Agric. 1: 211-220.
Khurana, G.P. and Bhaya, G.P. (1990). Effect of potash on wheat irrigated with
nitrate waters. Indian J Agron. 35: 429-431.
Kiani, S.P., Maury, P., Sarrafi, A. and Grieu, P. (2008). QTL analysis of chlorophyll
fluorescence parameters in sunflower (Helianthus annuus L.) under well-
watered and water-stressed conditions. Plant Sci. 175: 565-573.
Kidambi, S.P., Matches, A.G. and Bolger, T.P. (1990). Mineral concentration in
alfalfa and rainfoin as influenced by soil moisture level. Agron J. 82: 229-236.
Kim, J.Y., Mahe, A., Brangeon, J. and Prioul, J.L. (2000). A maize vacuolur
invertase, IVR2, is induced by water stress. Organ/tissue specificity and
diurnal modulation of expression. Plant Physiol. 124: 71-84.
Kishore, P.B.K., Sangam, S., Amrutha, R.N., Laxmi, P.S., Naidu, K.B., Bao,
K.R.S.S., Rao, S., Reddy, K.J., Theriappan, P. and Sreenivasula, N. (2005).
Regulation of proline biosynthesis, degradation, uptake and transport in higher
plants: its implications in plant growth and abiotic stress tolerance. Curr Sci.
88: 424-438.
Koenig, R.A and Johnson, C.R. (1942). Colorimetric determination of P in biological
materials. Ind Eng Chem. Analytical Edition.14: 155-56.
Kramer, P.J. and Boyer, J.S. (1997). Water relations of plants and soils. Acad. Press,
San Diago.
Krauss, A. (2001). Balanced fertilization, an integral part in quality management of
crop production. Proceedings of the 50th
Anniversary Conference on crop
science on the Verge of the 21st century. Opportunities and Challenges.
Research Institute of crop production, prague.
xxxvii
Krumm, M., Moazami, V. and Martin, P. (1990). Influence of K nutrition on
concentration of water soluble carbohydrates, K, Ca, Mg and osmotic potential
in sap extracted from wheat. Plant Soil. 124: 281-285.
Kuchenbuch, R., Claassen, N. and Jungk, A. (1986). Potassium availability in relation
to soil moisture, 1.Effect of soil moisture on K diffusion, root growth and K
uptake of onion plants. Plant Soil. 95: 221-231.
Kuhad, M.S. and Sheoran, I.S. (1986). Physiological and biochemical changes in
clusterbean (Cyamopsis tetragonoloba) genotypes under water stress. Indian J
Plant Physiol. 29: 46-52.
Kuhad, M.S., Kundu, B.S., Hooda, R.S. and Sheoran, I.S. (1988). Physiological
studies in chickpea (Cicer arietinum L.) under quantified moisture levels.
Indian J Plant Physiol. 31: 423-427.
Kulkarni, M. and Deshpande, U. (2007). In vitro screening of tomato genotypes for
drought resistance using polyethylene glycol. Afr J Biotechnol. 6: 691-696.
Kumar, A. and Elston, J. (1993). Leaf expansion in Brassica species in response to
water stress. India J Plant Physiol. 36: 220-222.
Kumar, A., Singh, D.P. and Singh, P. (1994). Influence of water stress on
photosynthesis transpiration, water use efficiency and yield of Brassica juncea
L. Field Crops Res. 37: 95-101.
Kumar, P., Kumar, P., Singh, T., Singh, A.K. and Yadav, R. (2014). Effect of
different potassium levels on mungbean under custard apple based agri-horti
system. Afr J Agric Res. 9: 728-734.
Kuo, C.G., Wang, L.J., Cheng, A.C. and Chou, M.M. (1978). Physiological Basis for
Mungbean Yield Improvement. In: The First International Mungbean
Symposium. (R Cowell. ed). AVRDC, Taiwan. pp: 205-209.
Kurdali, F, Farid, A, Shamma, M.A. (2002). Nodulation, dry matter production and
N2 fixation by fababean and chickpea as affected by soil moisture potassium
fertilizer. J Plant Nutr. 25: 355-368.
xxxviii
Kuroda, M., Qzawa, T. and Imagawa, H. (1990).Changes in chloroplast peroxidase
activities in relation to chlorophyll loss in barley leaf segments. Physiol Plant.
80: 555-560.
Kusvuran, S. (2012). Influence of drought stress on growth, ion accumulation and
antioxidative enzymes in okra genotypes. Int J Agric Biol. 14: 401-406.
Kusvuran, S., Dasgan, H.Y. and Abak, K. (2011). Responses of different melon
genotypes to drought stress. J Agric Sci. 21: 209-219.
Ladrera, R., Marino, D., Larrainzar, E., Gonzalez, E.M. and Arrese-igor, C. (2007).
Reduced carbon availability to bacteroids and elevated ureides in nodules, but
not in shoots, are involved in the nitrogen fixation response to early drought in
soybean. Am Soc Plant Biol. 145: 539-546.
Lambrides, C.J., Godwin, I.D. (2007). School of Land and Food Sciences, Plant
Improvement Group, The University of Queensland, St Lucia, QLD 4072,
Australia.
Larson, K.L. (1975). Drought injury and resistance of crop plants. In: Gupta (Ed.),
U.S. Physiological Aspects of Dry Land Farming. Oxford and RHS Pub. Co.
New Delhi, India, pp. 147–165.
Lathwal, O.P., Malik, R.K. and Tomar, Y.S. (2007). Bulleting in Hindi, Ch. Charan
Singh Haryana Agricultural University, Hisar.
Lawlor, D.W. (1976). Water stress induced changes in photosynthesis,
photorespiration, respiration and CO2 compensation concentration of wheat.
Photosynthetica. 10: 378–387.
Lawlor, D.W. and Cornic, G. (2002). Photosynthetic carbon assimilation and
associated metabolism in relation to water deficits in higher plants. Plant Cell
Environ. 25: 275-294.
Lawn, R.J. and Brun, W.A. (1974). Symbiotic nitrogen fixation in soybeans. I. Effect
of photosynthetic source-sink manipulations. Crop Sci. 14: 11-16.
Leport, L., Turner, N.C., Davis, S.L. and Siddique, K.H.M. (2006). Variation in pod
production and abortion among chickpea cultivars under terminal drought.
Europ J Agron. 24: 236-246.
xxxix
Lessani, H. and Mojtahedi, M. (2002). Introduction to Plant Physiology (Translation).
6th Edn., Tehran University press, Iran, ISBN: 964-03-3568-1, pp:726.
Levitt, J. (1980) .Responses of Plants to Environmental Stresses. 2nd ed. New York:
Academic Press.
Li, M.D., and Zheng, S.X. (1996). Influence of potassium nutrition on growth and
drought resistance of maize soils. Fertilizers. 4: 10–12.
Li, M.D., Dac, P.A., Luo, C.X. and Zhang, S.X. (1989). Interaction effect of K and B
on rape seed yield and nutrient status in rape plants. J Soil Sci. 32: 212-216.
Li, T.H. and Li, S.H. (2005). Leaf responses of micropopagated apple plants to water
stress: nonstructural carbohydrate composition and regulatory role of
metabolic enzymes. Tree Physiol. 25: 495-504.
Li, X.M., Zhu, C.F., Miao, V.N. and Zhang, L.H. (1993). Changes of nitrate-nitrogen
and activity of nitrate reductase in different parts of soybean during plant
development. Plant Physiol. 29: 263-265.
Lindhauer, M. (1989). Role of potassium in cell extension, growth and storage of
assimilates. In: Methods of Potassium Research in Plants, eds.N.Ceilo, P.
Andre, and A. Laeuchli, pp. 161–188. International Potash Institute, Berne,
Switzerland.
Lindhauer, M.G. (1985). Influence of K nutrition and drought on water relations and
growth of Sunflower (Helianthus annuus L.) Z. Pflanzenernaehr. Bodnek.
148: 654-669.
Lindhauer, M.G. (1987). Solute concentrations in well-watered and water-stressed
sunflower plants differing in K nutrition. J Plant Nutr. 10: 1965-1973.
Lindner, R.C. (1944). Rapid analytical method for some of the more common
inorganic constituents of plant tissues. Plant Physiol. 19: 76-89.
Lipiec J., Doussan C., Nosalewicz A. and Kondracka K. (2013). Effect of drought and
heat stresses on plant growth and yield: A review. Int Agrophys. 27: 463-477.
xl
Liu, F., Andersen, M.N. and Jensen, C.R. (2003). Loss of pod set caused by drought
stress is associated with water status and ABA content of reproductive
structures in soybean. Funct Plant Biol. 30: 271-280.
Liu, F., Christian, R.J. and Mathias, N.A. (2004). Drought stress effect on
carbohydrate concentration in soybean leaves and pods during early
reproductive development: its implication in altering pod set. Field Crops Res.
86: 1-13.
Llorens, L., Penuelas, J. and Filella, I. (2003). Diurnal and seasonal variations in the
photosynthetic performance and water relations of two co-occurring
Mediterranean shrubs, Erica multiflora and Globularia alypum. Physiol Plant.
118: 84-95.
Lobato, A.K.S., Costa, R.C.L., Oliveira, N.C.F., Santos, F.B.G., GoncalvesVidigal,
M.C., Vidigal Filho, P.S., Silva, C.R., Cruz, F.J.R., Carvalho, P.M.P., Santos,
P.C.M. and Gonela, A. (2009). Consequences of the water deficit on water
relations and symbiosis in Vigna unguiculata cultivars. Plant Soil Environ. 55:
139-145.
Lobato, A.K.S., Oliveira Neto, C.F., Costa, R.C.L., Santos Filho, B.G., Cruz, F.J.R.
and Laughinghouse, H.D. (2008a). Biochemical and physiological behavior of
Vigna unguiculata (L.) Walp. under water stress during the vegetative phase.
Asian J Plant Sci. 7: 44-49.
Loboda, T. (1993) Gas exchange of different spring cereal genotypes under normal
and drought conditions. Photosynthetica. 29: 567-572.
Lonhard, B.E. and I. Nemeth. (1989). Leaf area as affected by K-fertilizer application
in maize (Zea mays L.). Novenytermeles. 38: 317-324.
Lopez, F., Vansuyt, G., Fourcroy, P. and Delbart. F.C. (1994). Accumulation of a 22-
KDa protein and its mRNA in the leaves of Raphnus sativus in response to salt
stress or water deficit. Physiologia Plant. 91: 605-614.
Lowry, O.H., Rosebrough, N.J., Farr, A.L. and Randall, R.J. (1951). Protein
measurement with the Folin Phenol Reagent. J Biol Chem. 193: 265-275.
xli
Ludlow, M.M. and Muchow, R.C. (1990). A critical evaluation of traits for improving
crop yields in water-limited environments. Adv Agron. 43: 107-153.
Luthra, Y.P., Sheoran, I.S. and Singh, R. (1983). Ontogenetic interactions between
photosynthesis and symbiotic nitrogen fixation in pigeonpea. Ann Appl Biol.
103: 549-556.
Ma, Q.F., Turner, D.W., Levy, D. and Cowling, W.A. (2004). Solute accumulation
and osmotic adjustment in leaves of Brassica oilseeds in response to soil water
deficit. Aust J Agric Res. 55: 939-945.
Maathuis, F.J.M. and Sanders, D. (1996). Mechanisms of potassium absorption by
higher plant roots. Physiol Plant. 96: 158-168.
Madan, S., Nainawatee, H.S., Jain, R.K. and Chowdhury, J.B. (1995). Proline
metabolizing enzymes in in-vitro selected NaCl tolerant Brassica juncea L.
under salt stress. Ann Bot. 76: 51-57.
Madhujith, T., Naczk, M. and Shahidi, F. (2004). Antioxidant activity of common
beans (Phaseolus vulgaris L.). J Food Lipids. 11: 220-233.
Madhusudan, K.V., Giridharakumar, S., Ranganayakulu, G.S., Reddy, P.C. and
Sudhakar, C. (2002). Effect of water stress on some physiological responses in
two groundnut (Arachis hypogea L.) cultivars with contrasting drought
tolerance. J Plant Biol. 29: 199-202.
Mafakheri, A., Siosemardeh, A., Bahramnejad, B., Struik, P.C. and Sohrabi, E.
(2010). Effect of drought stress on yield, proline and chlorophyll contents in
three chickpea cultivars. Aust J Crop Sci. 4: 580-585.
Mahajan, S. and Tuteja, N. (2005). Cold, salinity and drought stresses: An overview.
Arch of Bioch and Bioph. 444. 139-158.
Mahmood, T., Ashraf, M. and Shahbaz, M. (2009). Does exogenous application of
glycinebetaine as a pre-sowing seed treatment improve growth and regulate
some key physiological attributes in wheat plants grown under water deficit
conditions? Pak J Bot. 41: 1291-1302.
xlii
Maiti, R.K., Moreno-Limon, S. and Wesche-Ebeling, P. (2000). Responses of some
crops to various abiotic stress factors and its physiological and biochemical
basis of resistances. Agr Rev. 21: 155-167.
Majumdar, S.K., Joshi, D.C. and Mukherjee, N.N. (1989). Response of rapeseed and
mustard to rate and time of potassium application. J Potassium Res. 5: 82-86.
Makhmudov, S.H.A. (1983). A study on chlorophyll formation in wheat leaves under
moisture stress. Field Crop Abst. 39: 1753.
Mali, G.C., Gupta, R., Gupta, K.P., Acharga, K.H. and Sharma, N.N. (2000). Effect of
K and S fertilizer on mungbean productivity grown on vertisols in Hodoti
region of Rajasthan (India). Adv Arid Leg Res. pp. 263-266.
Malik, C.P., Gupta, K. and Sharma, S. (1987). Effect of water stress on germination
and seedling metabolism of gram (Cicer arietinum L.) Biol Abst. 84: 933.
Manivannan, P., Jaleel, C.A., Kishorekumar, A., Sankar, B., Somasundaram, R.,
Sridharan, R. and Panneerselvam, R. (2007a). Changes in antioxidant
metabolism of Vigna unguiculata (L.) Walp. by propiconazole under water
deficit stress. Colloids Surf B: Biointerfaces. 57: 69-74.
Manivannan, P., Jaleel, C.A., Sankar, B., Kishorekumar, A., Somasundaram, R.,
Alagu Lakshmanan, G.M. and Panneerselvam, R. (2007b). Growth,
biochemical modifications and proline metabolism in Helianthus annus L. as
induced by drought stress. Colloids Surf B: Biointerfaces. 59: 141-149.
Mano, J. (2002). Early events in environmental stresses in plants-induction
mechanisms of oxidative stress. In Inze D, Montago MV, editors.Oxidative
stress in plants. Taylor and Francis Publishers, New York, USA. 217-245.
Mansfield, T.A. and Davies, W.J. (1981). Stomata and stomatal Mechanisms. In: The
physiology and Biochemistry of Drought Resistance in Plants. Academic
Press. Australia. pp 315-347.
Mansfield, T.J. and Atkinson, C.J. (1990). Stomatal behaviour in water stressed
plants. In: Alscher, R.G., Cumming, J.R. (Eds.), Stress Responses in Plants:
Adaptation and Acclimation Mechanisms. Wiley-Liss, New York. pp: 241-
264.
xliii
Maraghni, M., Gorai, M. and Neffati, M. (2011). The influence of water- deficit stress
on growth, water relations and solute accumulation in wild Jujube (Ziziphus
lotus). J Orn Hortic Plant. 1: 63-72.
Maribona, B.R., Tenorio, J.L., Conde, J.R. and Ayerbe, L. (1992). Correlation
between yield and osmotic adjustment of peas (Pisum sativum L.) under
drought stress. Field Crop Res. 29: 15-22.
Maroco, J.P., Pereira, J.S. and Chaves, M.M. (2000). Growth, photosynthesis and
water use efficiency of two C4 sahelian grasses subjected to water deficits. J
Arid Environ. 45: 119-137.
Marschner, P. (2012). Marschner‟s Mineral Nutrition of Higher Plants. 3rd ed.
Academic Press; London, UK. pp. 178–189.
Marshner, H. (1995). Mineral nutrition of higher plants. 2nd ed., Academic press, San
Diego, California, USA.
Martinez, J.P., Silva, H., Ledent, J.F. and Pinto, M. (2007). Effect of drought stress on
the osmotic adjustment, cell wall elasticity and cell volume of six cultivars of
common beans (Phaseolus vulgaris L.). Eur J Agron. 26: 30-38.
Martnez, J.P., Lutts, S., Schanck, A., Bajji, M. and Kinet, J.M. (2004). Is osmotic
adjustment required for water stress resistance in the Mediterranean shrub
Atriplex halimus L. J Plant Physiol. 161: 1041-1051.
Marvanville, J.W. and Paulsen, G.M. (1970). Alternation of carbohydrate composition
of corn seedlings during moisture stress. Agron J. 62: 605-608
Massacci, A., Nabiev, S.M., Pietrosanti, L., Nematov, S.K., Chernikova, T.N., Thor,
K. and Leipner, J. (2008). Response of the photosynthetic apparatus of cotton
(Gossypium hirsutum) to the onset of drought stress under field conditions
studied by gas-exchange analysis and chlorophyll fluorescence imaging. Plant
Physiol Biochem. 46: 189-195.
Mayoral, M.L., Atsman, D., Shimshi, D. and Gromet-Elthanan, Z. (1981). Effect of
water stress on enzyme activities in wheat and related wild species:
Carboxylase activity, electron transport and photo-phosphorylation in isolated
chloroplasts. Austr J Plant Physiol. 8: 385-393.
xliv
McWilliams, D. (2003). Drought Strategies for Cotton, Cooperative Extension
Service Circular 582, College of Agriculture and Home Economics, New
Mexico State University, USA.
Menconi, M., Sgherri, C.L.M., Pinzino, C. and Navari-Izzo, F. (1995). Activated
oxygen production and detoxification in wheat plants subjected to a water
deficit programme. J Exp Bot. 46: 1123-1130.
Mengel, K. (1975). The nutrition of the sugarbeet. Pot. Rev. 1. Subj. 3, 68th
Suit: 1-9.
Mengel, K. and Kirkby, E.A. (2001). Principles of Plant Nutrition. 5th ed., Kluwer
Academic Publishers, Dordrecht.
Mengel, K., Haghparast, M.R. and Koch, K. (1974). The effect of potassium on the
fixation of molecular nitrogen by root nodules of Vicia faba. Plant Physiol. 54:
535-538.
Mengel, K., Viro, M. and Hehl, G. (1976). Effect of potassium on uptake and
incorporation of ammonium nitrogen of rice plants. Plant Soil. 44: 547-558.
Mhadhbi, H., Fotopoulos, V., Djebali, N., Polidoros, A.N. and Aouani, M.E. (2009).
Behaviours of Medicago truncatula-Sinorhizobium meliloti symbioses under
osmotic stress in relation with symbiotic partner input. Effects on nodule
functioning and protection. J Agron crop Sci. 195: 225-231.
Miah, M.A., Anwar, K., Begum, M.P., Juraimi, M.A.S. and Islam, M.A. (2009).
Influence of sowing date on growth and yield of summer mungbean varieties.
J Agric Soc Sci. 5: 73-76.
Miah, M.Z.I., and Carangal, V.R. (2001). Yield of 10 mungbean cultivars evaluated in
intensive rice based cropping system. Intl. Rice Res. Newsl. 6: 27.
Miao, S., Shi, H., Jin, J., Liu, J., Liu, X. and Wang, G. (2012). Effects of short-term
drought and flooding on soybean nodulation and yield at key nodulation stage
under pot culture. J Food Agric Environ. 10: 819-824.
Minchin, F.R. and Pate, J.S. (1974). Diurnal functioning of the legume root nodule. J
Exp Bot. 35: 395-398.
xlv
Mishra, M.K. and Singh, M. (1991). Potassium nutrition in pigeonpea. J Potassium
Res. 7: 132-149.
Miyashita, K., Tanakamaru, S., Maitani, T. and Kimura, K. (2005). Recovery
responses of photosynthesis, transpiration, and stomatal conductance in kidney
bean following drought stress. Environ Exp Bot. 53: 205-214.
Mohamed, M.A.H. and Abdu. M. (2004). Growth and oil production of fennel
(Foeniculum vulgare Mill.), effect of irrigation and organic fertilization. Biol
Agric Hortic. 22: 31-39.
Mohammad, F. and Naseem, U. (2006). Effect of K application on leaf carbonic
anhydrase and nitrate reductase activities, photosynthetic characteristics, NPK
and NO3 contents, growth, and yield of mustard. Photosynthetica. 44: 471-473.
Mohammad, R.A. and Mahmood, H. (2011). Effect of potassium supply on drought
resistance in sorghum: plant growth and macronutrition content. Pak J Agric
Sci 48: 197-204.
Mohammadian, R., Moghaddam, M., Rahimian, H. and Sadeghian, S.Y. (2005).
Effect of early season drought stress on growth characteristics of sugar beet
genotypes. Turkisk J Bot. 29: 357-368.
Mohammadkhani, N. and Heidari, R. (2008). Effects of drought stress on protective
enzyme activities and lipid peroxidation in two maize cultivars. Pak J Biol.
Sci. 10: 3835-3840.
Mohammadzadeh, A., Majnoonhoseini, N., Moghaddam, H. and Akbari, M. (2011).
The effect of various water stress and nitrogen levels on the yield and yield
components in red beans genotype. J Agric Sci. 43: 29-38.
Monakhova O.F. and Chernyadev I.I. (2002). Protective role of kartolin-4 in wheat
plants exposed to soil drought. Appl Environ Microbiol. 38: 373-380.
Mondal, S.S. and Goswami, S.B. (1991). Effect of split application of potassium on
rainfed groundnut. J Potassium Res. 7: 304-308.
Mondal, S.S., Das S.K., Pradhan, B.K. and Goswami, S.B. (1990). Effect of
potassium on the growth and yield of mustard at varying plant and density. J
Potassium Res. 6: 119-123.
xlvi
Monneveux, P.C., Sanchez, D.B and Edmeades, G.O. (2006). Drought tolerance
improvement in tropical maize source populations: evidence of progress. Crop
Sci. 46: 180-191.
Monreal, J.A., Jimenez, E.T., Remesal E., Monrillo-vlarde, R., Garcia-maurino, S.
and Echevanrria, C. (2007). Proline content of sugar beet storage roots:
Response to water deficit and nitrogen fertilization at field conditions. Environ
Exp Bot. 60: 257-267.
Moradi, A., Ahmadi, A. and Zadeh, A.H. (2008). The effects of different timings and
severity of drought stress on gas exchange parameters of mungbean. Desert.
13: 59-66.
Morgan, J.M. (1984) Osmoregulation and water stress in higher plants. Ann Rev Plant
Physiol. 35: 299-319.
Morgan, J.M. (1992). Adaptation of water deficits in three grain legume species.
Mechanisms of turgor maintenance. Field Crops Res. 29: 91-106.
Moustakas, M., Ilektra, S., Theodora, K., Chrysovalantou, I.A. and Ioannis, T. (2011).
Exogenous proline induces soluble sugar accumulation and alleviates drought
stress effects on photosystem II functioning of Arabidopsis thaliana leaves.
Plant Growth Regul. 65: 315-325.
Muhammad, Z.I., Nauman, S., Shamsa, K., Muhammad, N., Abdul, K., Fathy, S.E.
and Ammar, M. (2013). Potassium as foliar supplementation mitigates
moisture induced stresses in mungbean (Vigna radiata L.) as revealed by
growth, photosynthesis, gas exchange capacity and Zn analysis of shoot. Intl J
Agron Plant Prod. 4: 3828-3835.
Mukane, M.A., Chavan, V.D. and Desai, B.B. (1993) Effect of water stress on
metabolic alterations in Pigeonpea (Cajanus cajan (L.) Millspaugh)
genotypes. Legume Res. 16: 45-50.
Mullins, G.L., Schwab G.J. and Burmester, C.H. (1999). Cotton response to surface
applications of potassium fertilizer: a 10-year summary. J Prod Agric. 12: 434-
440.
xlvii
Muneer, S., Ahmad, J., Bashir, H. and Qureshi, M.I. (2012). Proteomics of nitrogen
fixing nodules under various environmental stresses. Plant Omics J. 5: 167-
176.
Munne-Bosche, S. (2007). Aging in perennials. Crit Rev Plant Sci. 26: 123-138.
Munns, R. (2002). Comparative physiology of salt and water stress. Plant Cell
Environ. 25: 239-250.
Musallam, I.W., Al-Karaki, G., Ereifej, K. and Al-Tawaha, A.R. (2004a). Yield and
yield components of faba bean genotypes under rainfed and irrigation
conditions. Asian J Plant Sci. 3: 439-448.
Musallam, I.W., Al-Karaki, G., Ereifej, K. and Al-Tawaha, A.R. (2004b). Chemical
composition of faba bean genotypes under rainfed and irrigation conditions.
Int J Agric Biol. 6: 369-362.
Nagaraj, G. (1990). Biochemical quality of oilseeds. J Oilseeds Res. 7: 47-55.
Naghavi, M.R., Aboughadareh, A.P. and Khalili, M. (2013). Evaluation of drought
tolerance indices for screening some of corn (Zea mays L.) cultivars under
environmental conditions. Not Sci Biol. 5: 388-393.
Nakamura, T., Nomura, M., Mori, H., Jagendroff, A.T., Ueda, A. and Takabe, T.
(2001). An isozyme of betaine aldehyde dehydrogenase in barley. Plant Cell
Physiol. 42: 1088-1092.
Nandwal, A.S. (1989). Physiological studes on pigeonpea (Cajanus cajan L. Mill)
under water stress. Ph.D. Thesis, H.A.U., Hisar (Haryana).
Nandwal, A.S. Bharti, S., Kuhad, M.S. and Sheoran, I.S. (1991). Water relations and
gaseous exchange studies in pigeonpea under depleting soil moisture potential.
Plant Physiol Biochem. 29: 75-78.
Nandwal, A.S. Bharti, S., Kuhad, M.S. and Singh, I. (1993). Reponse of pigeonpea
cultivars to water stress. Biological Plantarum. 35: 641-644
Nandwal, A.S., Bharti, S., Kuhad, M.S. and Sheoran, I.S. (1991a). Drought effects on
carbon exchange and nitrogen fixation in pigeon pea (Cajanus cajan L.). J
Plant Physiol. 138: 125-127.
xlviii
Nandwal, A.S., Bharti, S., Kuhad, M.S. and Singh, I.S. (1991b). Nitrogen status of
pigeon pea (Cajanus cajan) under water deficit. Indian J Exp Biol. 29: 879-
880.
Nandwal, A.S., Hooda, A. and Datta, D. (1998). Effects of substrate moisture and
potassium on water relations and C, N and K distribution in Vigna radiata.
Biol Plant. 41: 149-153.
Nandwal, A.S., Kundu, B.S., Hooda, A. and Kuhad, M.S. (1996). Water relations and
nitrogen fixation in potassium fed Vigna radiata nodules. Biol Plantarum. 38:
629-632.
Naresh, R.K., Purushottam, Singh, S.P., Dwivedi, A. and Kumar V. (2013). Effects of
water stress on physiological processes and yield attributes of different
mungbean (L.) varieties. Afr J Biochem Res. 7: 55-62.
Nasri, M. (2005). Interaction of nutrient elements and drought stress in cultivars of
Brassica napus. The second international conference on integrated approaches
to sustain and improve plant production under drought stress. Rome, Italy,
September 24-28, pp-109.
Nath, A.K., Kumari, S. and Sharma, D.R. (2005). In vitro selection and
characterization of water stress tolerant cultures of bell pepper. Indian J Plant
Physiol. 10: 14-19.
Nautiyal, P.C., Ravindra, V. and Joshi, Y.C. (2002). Dry matter partitioning and water
use efficiency under water-deficit during various growth stages in groundnut.
Indian J Plant Physiol, 7:135-139.
Navabpour, S., Morris, K., Allen, R., Harrison, E., Mackerness, S.A.H. and
Buchanan-Wollaston, V. (2003). Expression of senescence enhanced genes in
response to oxidative stress. J Exp Bot. 54: 2285-2292.
Navari-Izzo, F., Quartacci, M.F. and Izzo, R. (1990). Water-stress induced changes in
protein and free amino acids in field grown maize and sunflower. Plant
Physiol Biochem. 28: 531-537.
xlix
Nazarli, H. and Faraji, F. (2011). Response of proline, soluble sugars and antioxidant
enzymes in wheat (Triticum aestivum L.) to different irrigation regimes in
greenhouse condition. Agronom Res Moldova. 4: 27-33.
Nelson, D.R., Bellville, R.J. and Porter, C.A. (1984). Role of nitrogen assimilation in
seed development of soybean. Plant Physiol. 74: 128-133.
Nelson, W.L. (1980). Interactions of potassium with moisture and temperature. In:
Potassium for Agriculture. pp. 109-112. Potash and Phosphate Inst. Atlanta,
USA.
NeSmith, D.S. and Ritche, J.T. (1992). Maize (Zea mays L.) response to a severe soil
water-deficit during grain-filling. Field Crops Res. 29: 23-35.
Newton, R.J., Bhaskaran, S., Puryear., J.D. and Smith, R.H. (1986). Physiological
changes in cultured sorghum cells in response to induced water stress. Plant
Physiol. 81: 626-629.
Nikolaeva, M.K., Maevskaya, S.N., Shugaev, A.G. and Bukhov, N.G. (2010). Effect
of drought on chlorophyll content and antioxidant enzyme activities in leaves
of three wheat cultivars varying in productivity. Russ J Plant Physiol. 57: 87-
95.
Nilsen, E.T. and Orcutt, D.M. (1996). Physiology of plants under stress, abiotic
factors. 2nd Edn. John Wiley and Sons Inc., New York, pp: 689.
Nir, I. and Poljakoff-Mayber, A. (1967). Effect of water stress on the photochemical
activity of chloroplast. Nature. 213: 418-419.
Noctor, G. and Foyer, C.H. (1998). Ascorbate and glutathione: keeping active oxygen
under control, Annu. Rev. Plant Physiol Plant Mol Biol. 49: 249-270.
Nonami, H. (1998) Plant water relations and control of cell elongation at low water
potentials. J Plant Res. 111: 373-382.
Nunes, C., Araujo, S.S., Silva, J.M., Fevereiro, M.P.S. and Silva, A.B. (2008.)
Physiological responses of the legume model Medicago truncatula cv.
Jemalong to water deficit. Envir and Exper Bot. 63: 289-296.
l
O‟Connell, M.G., O‟Leary, G.J., Whitfield, D.M. and Connor, D.J. (2004).
Interception of photosynthetically active radiation and radiation-use efficiency
of wheat, field pea and mustard in a semi-arid environment. Field Crop Res.
85: 111-124.
Oad, F.C., Shah, A.N., Jamro, G.H. and Ghaloo, S. (2003). H. Phosphorus and
potassium requirements of mungbean (Vigna radiata). J Appl Sci. 3: 428-431.
Ocampo, E.T.M. and Robles, R.P. (2000). Drought tolerance in Mungbean II.
Stomatal Movement, Photosynthesis and leaf Water Potential. Philipp J Crop
Sci. 25: 7-15.
Oddo, E., Inzerillo, S., La-Bella, F., Grisafi, F., Salleo, S. and Nardini, A. (2011).
Short term affects of potassium fertilization on the hydraulic conductance of
Laurus nobilis L. J Tree Physiol. 31: 131-138.
Ogbonnaya, C.I., Nwalozie, M.C., Roy-Macauley, H. and Annerose, D.J.M. (1998).
Growth and water relations of Kenaf (Hibiscus cannabinus L.) under water
deficit on a sandy soil. Ind Crops Prod. 8: 65–76.
Oghorie, C.G.D. and Pate, J.S. (1971). In: Biological nitrogen fixation in natural &
agricultural habitats. (eds.) Lie. T.A. and Mulder, E.G., Nijhoff, The Hague.
pp. 189.
Ohashi, A., Nakayama, N., Saneoka, H. and Fujita, K. (2006). Effects of drought
stress on photosynthetic gas exchange, cholorophyll fluorescence and stem
diameter of soybean plants. Biol Plantarum. 50:138-141.
Ort, D. R. (2001). When there is too much light. Plant Physiol. 125: 29-32.
Ouvrard, O., Cellier, F., Ferrare, K., Tousch, D., Lamaze, T., Dupuis, J.M. and Casse-
Delbart, F. (1996). Identification and expression of water stress and abscisic
acid regulated genes in a drought-tolerant sunflower genotype. Plant Mol
Biol. 31: 819-829.
Ozturk, L. and Demir, Y. (2002). In vivo and vitro protective role of proline. Plant
growth regul. 38: 259-264.
li
Pal, U.R., Olufajo, O.O., Nandi, L.A. and Singh, L. (1989). Response of soybean
(Glycine max L.) to phosphorus, potassium and molybdenum applications. J
Agric Sci. 112: 1312-136.
Palomo, I.R., Baioni, S.S., Fioretti, M.N. and Brevedan, R.E. (1999). Canola under
water deficiency in Southern Argentina. In: Potter TD, McDonald G,
Salisbury PA, Green AG (eds): Canola in Australia: The First Thirty Years.
Proc. 10th Intl. Rapeseed Congress,Canberra, Australia.
Palta, J.A. (1983). Photosynthesis, transpiration and leaf diffusive conductance of the
cassava leaf in response to water stress. Can J Bot. 61: 373-376.
Panda, S.K. and Khan, M.H. (2003). Antioxidant efficiency in rice (Oryza sativa L.)
leaves under heavy metal toxicity. J Plant Biol. 30: 23-29.
Pandey, P.K., Herrera, W.A.T. and Pendleton, J.W. (1984). Drought response of grain
legumes under irrigation gradient. Agron J. 76: 549-560.
Pankhurst, C.E. and Sprent, J.I. (1975). Effects of water stress on the respiratory and
nitrogen-fixing activity of soybean root nodules. J Exp Bot. 26: 287-304.
Parida, A.K. and Das, A.B. (2005). Salt tolerance and salinity effects on plants: A
Review: Ecotox Environ Safe. 60: 324-349.
Paroda, R.S. (1995). Production of pulse crop in Asia: Present Scenario and future
options. In production of pulse crop in Asia, ed. S.K. Sinha and R.S. Paroda.
FAO/RAPA Publication 1995. Bangkok, Thailand: Food and Agriculture
organization of the United Nations, Regional office for Asia and the Pacific.
Parthipan, S. and Kulasooriya, S. (1989). Effect of Nitrogen- and Potassium-Based
Fertilizers on Nitrogen Fixation in the Winged Bean, Psophocarpus
tetragonolobus. J Appl Microbiol and Biotechn. 5: 335-341.
Pastori, G.M. and Trippi, V.S. (1992). Oxidative stress induces high rate of
glutathione reductase synthesis in a drought resistant maize strain. Plant Cell
Physiol. 33: 957- 961.
Patakas, A. and Noitsakis, B. (2001). Leaf age effects on solute accumulation in water
stressed grapevines. J Plant Physiol. 158: 63- 69.
lii
Pate, J.S. and Herridge, D.F. (1978). Partitioning and utilization of net photosynthates
in a nodulated annual legume. J Exp Bot. 39: 401-412.
Patel, C.L., Padalia, M.R. and Babaria, N.B. (1983). Growth and plant water relation
in groundnut grown under different soil moisture stress. Indian J Agric Sci.
53: 540-546.
Patil, B.C., Panchal, Y.C. and Janardhan, K.V. (1985). Effect of level of potash on
yield and K & N uptake of tobacco. J Pot Res. 4: 105-110.
Patil, B.C., Panchal, Y.C. and Janardhan, K.V. (1987). Photosynthesis and associated
leaf characters of Bidi tobacco (Nicotina tobacum L.) as influenced by levels
of potash. J Pot Res. 3: 122-128.
Patil, N.A. and Patil, T.M. (1993). Physiological responses of groundnut genotypes to
water stress. Legume Res. 16: 23-30.
Patil, S.J., Panchal, Y.C. and Janardhan, K.V. (1984). Effect of short term moisture
stress on free proline and relative water content in different plant parts of
maize genotypes. Indian J Plant Physiol. 27: 322-327.
Patnik, N. (2003). Soil fertility and fertilizer use- In: Viswanath, C.S. (ed.): Handbook
of Agriculture. pp. 203-247. Indian council of Agricultural Reaserch, New
Delhi.
Patterson, R.P. and Hudak, C.M. (1996). Drought avoidant soybean germplasm
maintains nitrogen-fixation capacity under water stress. Plant Soil. 186: 37-43.
Peat, J.R. Minchin, F.R., Summerfield, R.J. and Jeffcoat, B. (1981). Young
reproductive structures promote nitrogen fixation in soybean. Ann Bot. 48:
177-182.
Pennisi, E. (2008). The blue revolution, drop by drop, gene by gene. Science. 320:
171-173.
Pervez, H., Ashraf, M. and Makhdum, M.I. (2004). Influence of potassium nutrition
on gas exchange characteristics and water relations in cotton (Gossypium
hirsutum L.) Photosynthetica. 42: 251-255.
liii
Pervez, H., Makhdum, M.I. and Ashraf, M. (2006). The interactive effects of
potassium nutrition on the uptake of other nutrients in cotton (Gossypium
hirsutum L.) under an arid environment. J Chem Soc Pak. 28: 256-265.
Petropoulos, S.A., Daferera, D., M.G. Polissiou and Passam,H.C. (2008). The effect
of water deficit stress on the growth, yield and composition of essential oils of
parsley. Sci Hort. 115: 393-397.
Peuke, A.D. and Rennenberg, H. (2004). Carbon, nitrogen, phosphorus, and sulphur
concentration and partitioning in beech ecotypes (Fagus sylvatica L.):
phosphorus most affected by drought. Trees. 18: 639-648.
Pier, P.A. and Berkowitz, G.A. (1987). Modulation of water stress effects on
photosynthesis by altered leaf K. Plant Physiol. 85: 655-661.
Pimentel, C. (1999). Water relations in two hybrids of corn under two cycles of water
stress. Pesq Agropec Bras. 34: 2021-2027.
Pimratch, S., Jogloy, S., Vorasoot, N., Toomsan, B., Kesmala, T., Patanothai, A. and
Holbrook, C.C. (2008). Effect of drought stress on traits related to N2 fixation
in eleven peanut (Arachis hypogaea L.) genotypes differing in degrees of
resistance to drought. Asian J Plant Sci. 7: 334-342.
Pimratch, S., Jogloy, S., Vorasoot, N., Toomsan, B., Kesmala, T., Patanothai, A. and
Holbrook, C.C. (2010). Effects of drought on characters related to nitrogen
fixation in peanut. Asian J Plant Sci. 9: 402-413.
Pinheiro, C., Chaves, M.M. and Ricardo, C.P. (2001). Alterations in carbon and
nitrogen metabolism induced by water deficit in the stems and leaves of
Lupinus albus L., J Exp Bot. 52: 1063-1070.
Pinhero, R.G., Rao, M.V., Palyath, G., Murr, D.P. and Fletcher, R.A. (2001). Changes
in the activities of antioxidant enzymes and their relationship to genetic and
paclobutrazol-induced chilling tolerance of maize seedlings. Plant Physiol.
114: 695-704.
Pinkerton, A. and Simpson, J.R. (1986). Interactions of surface drying subsurface
nutrients affecting plant growth on acidic soil profile from an old pasture. Aust
J Exp Agric. 26: 681-689.
liv
Plaut, Z. and Federman, E. (1991). Acclimation of Co2 assimilation in cotton leaves to
water stress and salinity. Plant Physiol. 97: 515-522
Porro, I. and Cassel, D.K. (1986). Response of maize to tillage and delayed irrigation.
Field Crop Abstr. 40:637.
Posmyk, M.M, Kontek, R. and Janas, K.M. (2009). Antioxidant enzymes activity and
phenolic compounds content in red cabbage seedlings exposed to copper
stress. J Ecotoxicol and Environ Safety. 72: 596-602.
Postel, S.L. (2000). Entering an era of water scarcity: The challenges ahead. Ecol
Applic. 10: 941-948.
Premachandra, G.S. Saneoka, H., Fujita, K. and Ogata, S. (1992). Osmotic adjustment
and stomatal response to water deficits in maize. J Exp Bot. 43: 1451-1456.
Premachandra, G.S., Saneoka, H. and Ogata, S. (1991). Cell membrane stability and
leaf water relations as affected by potassium nutrition of water-stressed maize.
J Exp Bot. 42: 739-745.
Premaratne, K.P. and Oertli, J.J. (1994). The influence of potassium supply on
nodulation, nitrogenase activity and nitrogen accumulation of soybean
(Glycine max L. Merrill) grown in nutrient solution. Nutr Cycl Agroecosys.
38: 95-99.
Prem-Chandra, G.S., Saneoka, H. and Ogata, S. (1990). Cell membrane stability, an
indicator of drought tolerance, as affected by applied nitrogen in soybean. J
Agric Sci. 115: 63-66.
Price, A.H. (2002). QTLs for root growth and drought resistance in rice. In: Mohan
Jain S, Brar DS, Ahloowalia BS, editors. Molecular techniques in crop
improvement. Norwell, MA: Kluwer Academic Publisher. pp. 563-584.
Puppo, A. and Halliwell, B. (1988). Generation of hydroxyl radicals by soybean
nodule leghaemoglobin. Planta. 173: 405-410.
Quampah, A., Wang, R.M., Shamsi I.H., Jilani G., Zhang, Q., Hua, S. and Xu, H.
(2011). Improving water productivity by potassium application in various rice
genotypes. Int J Agric Biol. 13: 9-17.
lv
Quarrie, S.A. (1980). Genotypic differences in leaf water potential, Abscisic acid and
proline concentrations in spring wheat during drought stress. Ann Bot. 46:
383-394.
Rad, A.H.S., Daneshian, J. and Valadabadi, A.R. (2005). Water deficit stress effect at
grain filling seed stages of rapeseed. The second international conference on
integrated approaches to sustain and improve plant production under drought
stress. Rome, Italy, September 24-28, pp-243.
Rafiei, M.S. and Asgharipur, M.R. (2009). Yield reaction and morphological
characteristics of some mungbean genotypes to drought stress. J Mod Agric
Knowl. 5: 67-76.
Raghava, N., Raghava, R.P. and Kumar, P. (1993). Protein and leghaemoglobin
content in nodules in relation to flowering and pod formation in Vigna
unguiculata L. Indian J Plant Physiol. 36: 67-68.
Rahbarian, R., Nejad, R.K., Ganjeali, A., Bagheri, A. and Najafi, F. (2011). Drought
stress effects on photosynthesis, chlorophyll fluorescence and water relations
in tolerant and susceptible chickpea (Cicer arietinum L.) genotypes. Acta Biol
Cracov Bot. 53: 47-56.
Raheja, R.K., Batta, S.K., Ahuja, K.L., Labana, K.S. and Singh, M. (1986).
Comparison of oil content and fatty acid composition of peanut genotypes
differing in growth habit. Plant Food for Human Nutrition. 37: 103-108.
Rahman, I.U., Afzal, A., Iqbal, Z., Ijaz, F., Manan, S., Sohail, A.A., Khan, K., Karim,
S. and Qadir, G. (2014). Growth and Yield of Phaseolus vulgaris as
influenced by Different Nutrients Treatment in Mansehra. Int J Agron Agric
Res. 4: 20-26.
Ralston, E.J. and Esmande, J. (1982). Entry of oxygen and nitrogen into intact
soybean nodules. J Expt Bot. 33: 208-214.
Ramalho, J.D.C. and Chaves, M.M. (1992). Drought effect on plant water relations
and carbon gain in two lines of Lupinus albus L. Eur J Agron. 1: 271-280.
Ramanjulu, S. and Sudhakar, C. (1997) Drought tolerance is partly related to amino
acid accumulation and ammonia assimilation: A comparative study in two
lvi
mulberry genotypes differing in drought sensitivity. J Plant Physiol. 150: 345-
350.
Ramanjulu, S., Sreenivasalu, N., Giridhara, K. and Sudhakar, C. (1998).
Photosynthetic characteristics in mulberry during water stress and rewatering.
Photosynthetica, 35: 259-263.
Ramos M.L.G., Parsons, R., Sprent, J.I. and James, E.K. (2003). Effect of water stress
on nitrogen fixation and nodule structure of common bean. Pesq Agropec
Bras. 38: 339-347.
Ramos, M.L.G., Gordon, A.J., Minchin, F.R., Sprent, J.I. and Parsons, R. (1999).
Effect of water stress on nodule physiology and biochemistry of a drought
tolerant cultivar of common bean (Phaseolus vulgaris L.). Ann Bot. 83: 57-63.
Ranawake, A.L., Dahanayaka, N., Amarasingha, U.G.S., Rodrigo, W.D.R.J. and
Rodrigo, U.T.D. (2011). Effect of water stress on growth and yield of mung
bean (Vigna radiata L). Trop Agri Res Ext. 14: 1-7.
Rao, A.V. and Venkateswarlu, B. (1987). Nitrogen fixation as influenced by water
stress in selected crop legumes of the Indian arid zone. Arid Soil Research and
Rehabilitation, London, v. 1, pp. 89-96.
Rao, K, Rao. V. and Madhavan, K.V. (1984). Influence of potassium on chlorophyll
content of pigeonpea. Comparative Physiol Ecol. 9: 169-172.
Rao, N.R. (1986). Potassium nutrition of pearl millet subjected to moisture stress. J
Potassium Res. 2: 1-12.
Rao, R.C.N., Sastry, K.S.K. and Kumar, M.U. (1981). Role of potassium in proline
metabolism. I. Conversion of precursors into proline under stress conditions in
K-sufficient and K-deficient plant. Plant Sci Lett. 23: 327-334.
Rao, V.K., Rathor, A.C. and Singh, H.K. (2009). Screening of aonla (Emblica
officinalis gaertn.) cultivars for leaf chlorophyll and amino acid under
different sodicity and salinity levels. Indian J Soil Conserv (India). 37: 193-
196.
lvii
Ravindra, V., Nautiyal, P.C. and Joshi, Y.C. (1990). Physiological analysis of drought
resistance and yield in groundnut (Arachis hypogaea L.) Trop Agric. 67: 290-
296.
Raza, M.H., Sadozai, G.U., Baloch, M.S., Khan, E.A., Din, I. and Wasim, K. (2012).
Effect of irrigation levels on growth and yield of mungbean. Pak J Nutr. 11:
876-879.
Razmjoo, K., Heydarizadeh, P. and Sabzalian, M.R. (2008). Effect of salinity and
drought stresses on growth parameters and essential oil content of Matricaria
chamomile. Int J Agric Biol. 10: 451-454.
Reddy, A.A. (2009). Pulses Production Technology: Status and Way Forward.
Economic and Political Weekly. 44: 73-80.
Reddy, A.R., Chiatanya, K.V. and Vivekanandan, M. (2004). Drought-induced
responses of photosynthesis and antioxidant metabolism in higher plants. J
Plant Physiol. 161: 1189-1202.
Reddy, S.M., Subbarao, J.V. and Rao, L.M. (1980). Nitrogen balance studies in
peanut (Abstract). Proceedings of American Peanut Research and Education
Socy. 12: 69. A.P. Agric. Univ. Hyderabed.
Ribas-Carbo, M., Taylor, N.L., Giles, L., Busquets, S., Finnegan, P.M., Day, D.A.,
Lambers, H., Medrano, H., Berry, J.A. and Flexas, J. (2005). Effects of water
stress on respiration of soybean leaves. Plant Physiol. 139: 466-473.
Riccard, F.P., Gazeau, Vinne D.D. and Zivy, M. (1998). Protein changes in response
to progressive water deficit in maize. Plant Physiol. 117: 1253-1263.
Rojo, M., Carcedo, S.G. and Mateos, M. (1990). Distribution and Characterization of
Phosphatase and Organic Phosphorus in Soil Fractions. Soil Biol Biochem. 22:
169-174.
Romheld, V. and Kirkby, E.A. (2010). Research on potassium in agriculture: Needs
and prospects. J Plant Soil. 335: 155-180.
Ronde, J.A., Laurie, R.N., Caetano, T., Greyling, M.M. and Kerepesi, I. (2004).
Comparative study between transgenic and non-transgenic soybean lines
proved transgenic lines to be more drought tolerant. Euphytica. 138: 123-132.
lviii
Roponen, I. (1970). The effect of darkness on the leghaemoglobin content and amino
acid levels in the rot nodules of pea plants. Physiol Plantarum. 23: 452- 460.
Ruan, H.D., Gilkes, R.J., Scott, B.J., Xie, L.C. and Hu, X.Z. (1991). Potassium
response of Brassica chinensis Baily in the Guangzhou area, Southern China.
Fertilizer Res. 29: 159-162.
Rucker, K.S., Kvien, C.K., Holbrook, C.C. and Hook, J.E. (1995). Identification of
peanut genotypes with improved drought avoidance traits. Peanut Sci. 24: 14-
18.
Ruiz-Lozano, J.M., Collados, C., Barea, J.M. and Azcon, R. (2001). Arbuscular
mycorrhizal symbiosis can alleviate drought-induced nodule senescence in
soybean plants. New Phytol. 151: 493-502.
Ryle, G.J.A., Powell, C.E. and Gordon, A.J. (1979). The respiratory cost of nitrogen
fixation in soybean, cowpea and white clover. I. Nitrogen fixation and
respiration of the nodulated root. J Exp Bot. 30: 135-144.
Sadasivam, R., Natarajaratnam, N., Dabu, R., Muralidharan, V. and Rangasamy,
S.R.S. (1988). Response of mungbean cultivars to soil-moisture stress at
different growth phases. Mungbean Proceeding of the Second International
Symposium. AVRCD. 260-262.
Sadeghipour, O. (2009). The influence of water stress on biomass and harvest index in
three mungbean [Vigna radiata (L.) R. Wilczek] cultivars. Asian J Plant Sci.
8: 245-249.
Sadeghipour, O., Monem, R. and Tajali, A.A. (2010). Production of mungbean (Vigna
radiata L.) as affected by nitrogen and phosphorus fertilizer application. J
Applied Sci. 10: 843-847.
Saeidnejad, A.H., Kafi, M., Khazaei, H.R. and Pessarakli, M. (2013). Effects of
drought stress on quantitative and qualitative yield and antioxidative activity
of Bunium persicum. Turk J Bot. 37: 930-939.
Sairam, R.K. (1994). Effect of moisture-stress on physiological activities of two
contrasting wheat genotypes. Ind J Exp Biol. 32: 594-597.
lix
Sakeena, I. and Salam, M.A. (1989). Influence of potassium and kinetin on growth,
nutrient uptake and yield of rice. J Potassium Res. 5: 42-46.
Saleem, M. (2003). Response of durum and bread wheat genotypes to drought stress:
biomass and yield components. Asian J Plant Sci. 2: 290-293.
Samar R.M.A., Farrukh Saleem, M., Mustafa Shah, G., Jamil, M. and Haider Khan, I.
(2013). Potassium applied under drought improves physiological and nutrient
uptake performances of wheat (Triticum Aestivum L.). J Soil Sci Plant Nutr.
13: 175-185.
Samaras, Y., Bressan, R.A., Csonka, L.N., Garcia-Rios, M.G., Paino Durzo, M. and
Rhodes, D. (1995). Proline accumulation during drought and salinity. In (N
Smirnoff ed) "Environment and Plant Metabolism: Flexibility and
Acclimation," Bios Scientific Publishers, Oxford, pp 161-187.
Samiullah and Khan, N.A. (2003). Physiological investigation on interactive effect of
P and K on growth and yield of chickpea. Indian J Plant Physiol. 8:165-170.
Sanchez, F.J., Manazanares, M., de Andres, E.F., Tenorio, J.L. and Ayerbe, L. (1998)
Turgor maintenance, osmotic adjustment and soluble sugar and proline
accumulation in 49 pea cultivars in response to water stress. Field Crops Res.
59: 225-235.
Sangakkara R., Hartwig U.A. and Nosberger, J. (1996) Growth and symbiotic
nitrogen fixation of Vicia faba and Phaseolus vulgaris as affected by fertiliser
potassium and temperature. J Sci Food Agr. 70: 315-320.
Sangakkara, U.R., Frehner, M. and Nosberger, J. (2000). Effect of soil moisture and
potassium fertilizer on shoot water potential, photosynthesis and partitioning
of carbon in mungbean and cowpea. J Agron Crop Sci. 185: 201-207.
Sangakkara, U.R., Frehner, M. and Nosberger, J. (2001). Influence of soil moisture
and fertilizer potassium on the vegetative growth of mungbean (Vigna radiata
L. Wilczek) and cowpea (Vigna unguiculata L. Walp). J Agron Crop Sci. 186:
73-81.
lx
Sangakkara, U.R., Hartwig, U.A. and Nosberger, J. (1996). Soil moisture and
potassium affect the performance of symbiotic nitrogen fixation in faba bean
and common bean. Plant Soil. 184: 123-130.
Sankar, B., Jaleel, C.A., Manivannan, P., Kishorekumar, A., Somasundaram, R. and
Panneerselvam, R. (2007). Drought-induced biochemical modifications and
proline metabolism in Abelmoschus esculentus (L.) Moench. Acta Bot Croat.
66: 43-56.
Sankar, B., Jaleel, C.A., Manivannan, P., Kishorekumar, A., Somasundaram, R. and
Panneerselvam, R. (2008). Relative efficacy of water use in five varieties of
Abelmoschus esculentus (L.) Moench. under water-limited conditions.
Colloids Surf B Biointerfaces. 62: 125-129.
Santosh, K. (1987). Effect of growth regulators on growth and metabolism of bajra
(Pennisetum typhoids) and sunflower (Helianthus annuus L.) under simulated
drought conditions. Ph.D. Thesis, H.A.U., Hisar (Haryana).
Sarkar, S. and Bhattacharya, D.K. (1987). Seed composition of some new varieties of
sesamum, toria, yellow sarson, mustard and groundnut. J Oil Technol Assoc.
India. 19: 13-15.
Sarker, A.M., Rahman, M.S. and Paul, N.K. (1999). Effect of soil moisture on relative
leaf water content, chlorophyll, proline and sugar accumulation in wheat. J
Agron Crop Sci. 183: 225-229.
Sarma, P.S. (1993). Response of rainfed sorghum to potassium in medium deep
alfisols. Indian J Agric Sci. 63: 570-573.
Sarma, P.S. and Ramana, S. (1993). Response of sorghum to nitrogen and potassium
in alfisol. J Potassium Res. 9: 171-175.
Sashidhar, V.R., Mekhri, A.A. and Sastry, K.S.K. (1981). Potassium content and
proline accumulation following seed treatment with calcium chloride in
groundnut Arachis-hypogaea cultivars. Indian J Plant Physi. 24: 89-92.
Sastry, K.S.K. (1985). Influence of potassium on tolerance to stress – Indian
Experience. In: Potassium in Soils and Crops. (ed.) Sekhon, G.S. PRII, New
Delhi, pp. 39-46.
lxi
Sawan, Z.M., Hafez, S.A., Basyony, A.E. and Alkassas, A.R. (2007). Nitrogen,
potassium and plant growth retardant effects on oil content and quality of
cotton seed. Grasas Aceites. 58: 243-251.
Schinermann, R., Bichler, K. Stuhlfauth. T. and Fock, H.P. (1991). Simultaneous gas
exchange and fluorescence measurements indicate differences in the response
of sunflower, bean and maize to water stress. Photosynthesis Res. 27: 189-
197.
Schonfeld, M.A., Johnson, R.C., Carver, B.F. and Mornhiveg, D.W. (1985). Water
relations in winter wheat as drought resistant indicators. Crop Sci. 28: 526-
530.
Schtz, M. and Fangmeier, A. (2001). Growth and yield responses of spring wheat
(Triticum aestivum L. cv. Minaret) to elevated CO2 and water limitation. Env
Pollution. 114: 187-194.
Schupper, U., John, P.C.L. and Munns, R. (1998). Effects of water stress on cell
division and cell-divisioncycle-2-like cell-cycle kinase activity in wheat
leaves. Plant Physiol. 117: 667-678.
Sekhon, H.S., Bains, T.S., Kooner, B.S. and Sharma, P. (2007). Grow summer
mungbean for improving crop sustainability, farm income, and malnutrition.
Acta Hort. 752: 459-464.
Sen Gupta, A. and Berkowitz, G.A. (1987). Osmotic adjustment, symplast volume,
and non-stomatally mediated water stress inhibition of photosynthesis in
wheat. Plant Physiol. 85: 1040-1047.
Sen Gupta, A., Berkowitz, G.A. and Pier, P.A. (1989). Maintenance of photosynthesis
at low leaf water potential in wheat. Role of potassium status and irrigation
history. Plant Physiol. 89:1358-1365.
Serraj, R. and Sinclair, T.R. (1996). Inhibition of nitrogenase activity and nodule
oxygen permeability by water deficit. J Exp Bot. 47: 1067-73.
Serraj, R. and Sinclair, T.R. (2002). Osmolyte accumulation: can it really help
increase crop yield under drought conditions? Plant Cell Environ. 25: 333-341.
lxii
Sgherri, C.L.M., Pizino, C. and Navari- Izzo, F. (1993). Chemical changes and O2
Production in thylakoid membrances under water stress. Plant Physiol. 87:
211-216.
Shafi, M., Bakht, J., Javed, M., Mohammad, A.K. and Razi, D. (2011). Role of
abscisic acid and proline in salinity tolerance of wheat genotypes. Pakistan J
Bot. 43: 1111-1118.
Shahbaz, M., Masood, Y., Perveen, S. and Ashraf, M. (2011). Is foliar- applied
glycinebetaine effective in mitigating the adverse effects of drought stress on
wheat (Triticumaestivum L.)? J Appl Bot Food Qual. 84: 192-199.
Shahriari, R. and Hassan Panah, D. (2005). Measuring the length of coleoptiles in
native and promising genotypes of wheat in vitro using mannitol as the
osmotic stress factor. The Fourth Congress on Iran Biotechnology.
Shamsi, K. (2010). The effect of drought stress on yield, relative water content,
proline, soluble carbohydrates and chlorophyll of bread wheat cultivars. J
Anim Plant Sci. 3: 1051-1060.
Shao, H.B., Chu, L.Y., Jaleel, C.A. and Zhao, C.X. (2008a). Water-deficit stress-
induced anatomical changes in higher plants. Comp Rend Biol. 331: 215-225.
Shao, H.B., Chu, L.Y., Jaleel, C.A., Manivannan, P., Panneerselvam, R. and Shao,
M.A. (2009). Understanding water deficit stress-induced changes in the basic
metabolism of higher plants-biotechnologically and sustainably improving
agriculture and the ecoenvironment in arid regions of the globe. Critical Rev
Biotechnol. 29: 131-151.
Shao, H.B., Chu, L.Y., Shao, M.A., Abdul Jaleel, C. and Hong-Mei, M. (2008b).
Higher plant antioxidants and redox signaling under environmental stresses.
Comp Rend Biol. 331: 433-441.
Shao, H.B., Liang, Z.S. and Shao, M.A. (2005). Change of antioxidative enzymes and
MDA among 10 wheat genotypes at maturation stage under soil water deficits.
Colloid Surf B: Biointerfaces. 45: 7-13.
Sharkey, T.D. (1990). Water stress effects on photosynthesis. Photosynthetica. 24:
651-661.
lxiii
Sharma, K.D. (1992). Physiological studies on the effect of potassium on Brassica
and Cyamopsis tetragonoloba L. spp. under water deficit. Ph.D. Thesis,
H.A.U., Hisar (Haryana).
Sharma, K.D. and Kuhad, M.S. (1999). Influence of potassium on plant water
relations and yield of cluster bean under soil moisture stress. 267-270. In:
Management of Arid Ecosystems, Arid zone Res. Assoc. of India, Jodhpur,
India.
Sharma, K.D., Kuhad, M.S. and Nandwal, A.S. (1992). Possible role of potassium in
droght tolerance in Brassica. J Potassium Res. 8: 320-327.
Sharma, K.D., Kumar, S. and Singh, N. (2007). Dry matter accumulation and its
partitioning in different mothbean [Vigna aconitifolia (Jacq.) Marechal]
genotypes under moisture stress. Ann Biol. 23: 91-95.
Sharma, K.D., Nandwal, A.S. and Kuhad, M.S. (1996). Potassium effects on CO2
exchange, NRA and yield of clusterbean cultivars under water stress. J
Potassium Res. 12: 412-423.
Sharma, K.D., Singh, N. and Kuhad, M.S. (2008). Influence of potassium on some
biochemical metabolites of clusterbean (Cyamopsis tetragonoloba L.) under
moisture stress. J Arid legumes. 5: 88-92.
Sharma, K.D., Singh, N. and Kuhad, M.S. (2008). Possible role of potassium in
drought tolerance in Brassica. J Potassium Res. 8: 320-327.
Sharma, S.S. and Dietz, K.J. (2006). The significance of amino acids and amino-acid
derived molecules in plant responses and adaptation to heavy metal stress. J
Exp Bot. 57: 711-726.
Sharp, R.E., Silk, W.K. and Hsiao, T.C. (1988). Growth of the maize primary root at
low water potentials. Plant Physiol. 87: 50-57.
Shashi K. and Godara, A.K. (2011). Effect of moisture stress on leaf total proteins,
proline and free amino acid content in commercial cultivars of Ziziphus
mauritiana. J Sci Res. 55: 65-69.
lxiv
Shawquat, A.K., Mamun, A.A., Mahmud, A.A., Bazzaz, M., Hossain, A., Alam, S.
and Karim, A. (2014). Effects of salt and water stress on leaf production,
sodium and potassium ion accumulation in soybean. J Plant Sci. 2: 209-214.
Shearman, L.L., Esatin, J.D., Sullivan, C.Y. and Kinbacher, E.J. (1972). Carbon
dioxide exchange in water-stressed maize sorghum. Crop Sci. 12: 406-409.
Sheoran, I.S., Khan, M.I. and Garg, O.P. (1980). Effect of water stress on
physiological and biochemical changes in Guar during germination. Guar
News Lett. 1: 4-7.
Sheteawi, S.A. and Tawfik, K.M. (2007). Interaction effect of some biofertilizers and
irrigation water regime on Mungbean (Vigna radiata) growth and yield. J
Appl Sci Res. 3: 251-262.
Shohag, M.J.I., Karim, M.A. and Rahman, M.S. (2008). Effect of growth regulator on
morphological attributes of mungbean under irrigated and nonirrigated
conditions. J Agrofor Environ. 2: 1-6.
Shtreva, L. Atanssova, B., Karcheva, T. and Petkov, V. (2008). The effect of water
stress on growth rate, water content and proline accumulation in Tomato calli
and seedlings. Proc. XVth Eucarpia Tomato. Acta Hort. 789.
Siddique, M.R.B., Hamia, A. and Islam, M.S. (1999). Drought stress effects on
photosynthetic rate and leaf CO2 exchange of wheat. Bot Bull Acad Sin. 40:
141-145.
Siddique, M.R.B., Hamid, A. and Islam, M.S. (2001). Drought stress effects on water
relations of wheat. Bot Bull Acad Sinica. 41: 35-39.
Silberbush, M. and Lips, S.H. (1991). Potassium, nitrogen, ammonium/nitrate ratio
and sodium chloride effects on wheat growth. I. Shoot and root growth and
mineral composition. J Plant Nutr. 14: 751-764.
Silveira, J.A.G., Gomes da; COSTA, Roberto Cezar Lobo da and Oliveira,
J.T.A. (2001a). Drought-induced effects and recovery of nitrate assimilation
and nodule activity in cowpea plants inoculated with Bradyrhizobium spp.
under moderate nitrate level. Braz J Microbiol. 32: 187-194.
lxv
Silveira, J.A.G., Matos, J.C.S., Cecatto, V.M., Viegas, R.A. and Oliveira, J.T.A.
(2001b). Nitrate reductase activity, distribution, and response to nitrate in two
contrasting Phaseolus species inoculated with Rhizobium spp. Environ Exp
Bot. 46: 37-46.
Simiciklas, K.D., Mullen, R.E., Carlson, R.E. and Knapp, A.D. (1989). Drought
induced stress effects on soybean seed calcium and seed quality. Crop Sci. 29:
1519-1523.
Sinay, H. and Karuwal, R.L. (2014). Proline and total soluble sugar content at the
vegetative phase of six corn cultivars from Kisar Island Maluku, grown under
drought stress conditions. Int J Adv Agric Res. 2: 77-82.
Sinclair, T.R. and Ludlow M.M. (1985). Who taught plant thermodynamics? The
unfulfilled potential of plant water potential. Aust J Plant Physiol. 12: 213-
217.
Sinclair, T.R., Muchow, R.C., Bennett, J.M. and Hammond, L.C. (1987). Relative
sensitivity of nitrogen and biomass accumulation to drought in field-grown
soybean. Agron J. 79: 986-991.
Singal, H.R. Sheoran, I.S. and Singh, R. (1985). Effect of water stress on
photosynthesis and in vitro activities of the PCR cycle enzymes in pigeonpea.
Photosynthesis Res. 7: 69-76.
Singh, A.K. and Kumar, P. (2009). Nutrient management in rainfed dryland agro
ecosystem in the impending climate change scenario. Agril Situ India. 66:
265-270.
Singh, B. and Singh, G. (2006). Effects of controlled irrigation on water potential,
nitrogen uptake and biomass production in Dalbergia sissoo seedlings.
Environ Exp Bot. 55: 209-219.
Singh, B.B. and Dikshit, H.K. (2003). Combining ability studies for yield and
architectural traits in mungbean (Vigna radiata (L.) Wilczek). Indian J Genet.
63: 351-352.
lxvi
Singh, C. and Yadav, B.S. (1978). Production potential of mungbean and gaps
limiting its productivity in India. In: First Int. Mungbean Symp Proc. 28-
30.Cowell, R. (ed.), Avrdc, Shanhua, Tainan.
Singh, D. and Sahay, R.K. (1990). Proline accumulation in relation to yield reduction
and biomass recovery under stress conditions in cotton. Indian J Agric Sci. 60:
739-741.
Singh, J., Nakamura, S. and Ota, Y. (1993). Effect of epi-brassinolide on gram (Cicer
arietinum) plants grown under water stress in juvenile stage. Indian J Agric
Sci. 63: 395-397.
Singh, J., Sharma, H.L. and Singh, C.M. (1993). Response of Indian mustard to
potash in different agro-climatic zone of Himachal Pradesh. J Potassium Res.
9: 380-383.
Singh, K., Chowdhury, A., Subrahmanyam, K., Chatterjee, B.N. and Singh, D.V.
(1990). Influence of amounts and methods of potassium application on yield
and quality of Citronellia java. J Agric Sci. 115: 247-252.
Singh, K.P. and Singh, K. (1983). Influence of simulated water stress on free proline
accumulation in T. aestivum L. Indian J Plant Physiol. 26: 319-321.
Singh, N. and Kuhad, M.S. (2005). Role of potassium in alleviating the effect of water
stress on yield and seed quality in chickpea (Cicer arietinum L.). Bull National
Inst Ecol. 15: 219-225.
Singh, N., Chhokar, V., Sharma, K.D. and Kuhad, M.S. (1997). Effect of potassium
on water relations, CO2 exchange and plant growth under quantified water
stress in chickpea. Indian J Plant Physiol. 2: 202-206.
Singh, P.K., Mishra, A.K. and Imtiyaz, M. (1991). Moisture stress and water use
efficiency of mustard. Agric Water Management. 20: 245-253.
Singh, R.B. (1988). Trends and prospects for mungbean production in South and
Southeast Asia. In proceedings of the second international mungbean
symposium, ed. S. Shanmugasundaram and B.T. Mcclean. Shanhua, Taiwan:
World Vegetable Center.
lxvii
Singh, R.K., Athokpam, K., Singh, H.S., Nandini, L.N. and Chongtham. (2002).
Effect of nitrogen, phosphorous and potassium on the growth, yield and
nutrient uptake of blackgram (Vigna mungo L). J Agric Sci Soc. North-East
India. 15: 175-177.
Singh, S.P. (2007). Drought resistance in the race durango dry bean landraces and
cultivars. Agron J. 99: 1219-1225.
Singh, T.N., Aspinall, D. and Paleg, L.G. (1973). The influence of CCC and
gibberelling on growth and proline accumulation of wheat plants during water
stress. Aust J Biol Sci. 26: 77-86.
Singh, V. and Tomar, J.S. (1991). Effect of K and FYM levels on yield and uptake of
nutrient by wheat. J Potassium Res. 7: 309-313.
Singh, V. and Varun, G.S. (1989). Effect of potassium and iron application on yield
and nutrient uptake by cowpea (Vigna sinensis). J Potassium Res. 5: 152-156.
Sinha, S.K. (1978). Influence of potassium on tolerance to stress. In: G.S. Sekhon, ed.
Potassium in Soils and Crops. New Delhi: Pot Res Inst. 223.
Sircelj, H., Tausz, M., Grill, D. and Batic, F. (2005). Biochemical responses in leaves
of two apple tree cultivars subjected to progressing drought. J Plant Physiol.
162: 1308-1318.
Slama, I., Messedi, D., Ghnaya, T., Savoure, A. and Abdelly, C. (2006). Effect of
water deficit on growth and proline metabolism in Sesuvium portulacastrum.
Environ Exp Bot. 56: 231-238.
Smirnoff, N. and Cumbes, Q.J. (1989). Hydroxyl radical scavenging activity of
compatible solutes. Phytochem. 28: 1057-1060.
Sofo, A., Bartolmeo, D., Cristos, X. and Andrea, M. (2004). Lipoxygenase activity
and proline accumulation in leaves and roots of olive trees in response to
drought stress. Physiol Plant. 121: 58-65.
Specht, J.E., Chase, K., Macrander, M., Graef, G.L., Chung, J., Markwell, J.P.,
Germann, M., Orf J.H. and Lark, K.G. (2001). Soybean response to water. A
QTL analysis of drought tolerance. Crop Sci. 41: 493-509.
lxviii
Sprent, J.I. (1976). Nitrogen fixation by legumes subjected to water and light stresses.
In: Nutman P.S., (ed.), Symbiotic nitrogen fixation in plants. Cambridge
University Press. pp. 405-420.
Sprent, J.I. (1979). Nitrogen fixation and agriculture. In: The Biology of nitrogen
fixing organisms. (ed.) sprent, I.J. Mcgraw-Hill, New York. Pp. 101.
Sprent, J.I. and Gallacher, A. (1976). Anaerobiosis in soybean root nodules under
water stress. Soil Biol. Biochem. 8: 317-320.
Srinivasarao C, Ganeshamurthy A.N. and Singh, K.K. (2003). Potassium
requirements of pulse crops. Better Crops Int. 17:8-11.
Srivastava, H.S. (1980). Regulation of nitrate reductase in higher plants.
Phytochemistry. 19: 725-773.
Staniszewska, I., Krolicka, A., Malinski, E., Lojkowska, E. and Szafranek, J. (2003).
Elicitation of secondary metabolites in in vitro cultures of Ammi majus L.
Enzyme Microb Technol. 33: 565-568.
Streeter, J.G. (1993). Translocation. A key factor limiting the efficiency of nitrogen
fixation in legume nodules. Physiol Plant. 87: 616–623.
Streeter, J.G. (2003). Effects of drought on nitrogen fixation in soybean root
nodules. Plant Cell Environ. 26: 1199-1204.
Subbarao, G.V., Chauhan, Y.S. and Johansen, C. (2000). Patterns of osmotic
adjustment in pageonpea-its importance as a mechanism of drought resistance.
Euro J Agro. 12: 239-249.
Subrahmanyam, D., Subash, Y.S., Haris, A. and Sikka, A.K. (2006). Influence of
water stress on leaf photosynthetic characteristics in wheat cultivars differing
in their susceptibility to drought. Photosynthetica. 44: 125-129.
Sudama, S., Tiwari, T.N., Srivastava, R.P., Singh, G.P. and Singh, S. (1998). Effect of
potassium on stomatal behavior, yield and juice quality of sugarcane under
moisture stress condition. Indian J Plant Physiol. 3: 303-305.
lxix
Suevanarit, A. and Sertapukdee, M. (1989). Simulating effects of foliar K-fertilizer
applied on the appropriate age of the development of maize. A new way to
increase yield and quality. Plant Soil. 120: 111-124.
Sun, X., Rao, L.H., Zhang, Y.S., Ying, Q.H., Tang, C.X. and Qin, L.N. (1990). Effect
of K fertilizer on physiological parameters and yield of cotton grown on K
deficit soil. Soil Ferti. 53: 3694.
Sundaravalli, M.V., Paliwal, K. and Ruckmani, A. (2005). Effect of water stress on
photosynthesis., protein content and nitrate reductase activity of Albizzia
seedlings. J Plant Biol. 32: 13-17.
Suryapani, S., Malik, A.A., Sareer, O. and Umar, S. (2014). Potassium and
Rhizobium application to improve quantitative and qualitative traits of lentil
(Lens culinaris Medik.). Int J Agron Agric Res. 5: 7-16.
Swaraj, K. and Garg, O.P. (1977). The effect of ageing on the leghaemoglobin of
cowpea nodules. Physiol Plantarum. 39: 185-189.
Swaraj, K., Nandwal, A.S., Babber, S., Ahlawat, S. and Nainawati, H.S. (1995).
Effect of water stress on functioning and structure of Cicer arietinum L.
nodules. Biol Plantarum. 37: 613-619.
Swaraj, K., Topunov, A.F., Golubeva, L. and Kretovich, W.L. (1984). Effect of water
stress on enzymatic reduction of leghemoglobin and nitrogen fixation in
soybean nodules. Advances in frontier Aras of plant biochemistry, (eds). pp.
354-376.
Tahir, M.H.N. and Mehid, S.S. (2001). Evaluation of open pollinated sunflower
(Helianthus annuus L.) populations under water stress and normal conditions.
Int J Agric Biol. 3: 236-238.
Tahir, M.H.N., Imran M. and Hussain, M.K. (2002). Evaluation of sunflower
(Helianthus annuus L.) inbred lines for drought tolerance. Int J Agric. Biol. 3:
398-400.
Tahkokorpi, M., Taulavuori, K., Laine, K. and Taulavuori, E. (2007). After effects of
drought-related winter stress in previous and current year stems of Vaccinium
myrtillus L. Environ Exp Bot. 61: 85-93
lxx
Taiz, L. and Zeiger, E. (2002). Plant Physiology, 3rd ed. Sinauer Associates Inc
Publishers Massachusetts.
Taiz, L. and Zeiger, E. (2006). Plant Physiology (4th Ed.) Sinauer.
Tanaka, Y., Sano, T., Tamaoki, M., Nakajima, N., Kondo, N. and Hasezawa, S.
(2005). Ethylene inhibits abscisic acid-induced stomatal closure
in Arabidopsis. Plant Physiol. 138: 2337-2343.
Tanaka, Y., Sano, T., Tamaoki, M., Nakajima, N., Kondo, N. and Hasezawa, S.
(2006). Cytokinin and auxin inhibit abscisic acid-induced stomatal closure by
enhancing ethylene production in Arabidopsis. J Exp Bot. 57:2259-2266.
Tanguilig, V.C., Yambao, E.B., Toole, J.C.O. and De-Datta, S.K. (1987). Water stress
effects on leaf elongation, leaf water potential, transpiration, and nutrient
uptake of rice, maize, and soybean. Plant Soil. 103: 155-180.
Tanha, M.R.H. (1971). The influence of potassium on activity of Rhizobium bacteria.
In: Proc. 8th
Colloq. Intern. Potash. Inst. Berne. pp. 169-175.
Tarafda, P.K. and Mukhopadhay, A.K. (1986). Response of jute crop to potassic
fertilization under soil moisture stress. J Potassium Res. 2: 65-69.
Tari, I., Camen, D., Coradini, G., Csiszar, J., Fediuc, E., Gemes, K., Lazar,
A., Madosa, E., Mihacea, S., Poor, P., Postelnicu, S., Staicu, M., Szepesi,
A., Nedelea, G. and Erdei, L. (2008). Changes in chlorophyll fluorescence
parameters and oxidative stress responses of bush bean genotypes for selecting
contrasting acclimation strategies under water stress. Acta Biol Hung. 59: 335-
45.
Tawfik, K.M. (2008). Effect of water stress in addition to potassiomag application on
Mungbean. Aust J Basic Appl. Sci. 2: 42-52.
Teran, H. and Singh, S.P. (2002). Selection for drought resistance in early generations
of common bean populations. Can J Plant Sci. 82: 491-497.
Terzi, R. and Kadioglu, A. (2006). Drought stress tolerance and the antioxidant
enzyme system in Ctenanthe setosa. Acta Biol Cracov Bot. 48: 89-96.
lxxi
Terzi, R., Saglam, A., Kutlu, N., Nar, H. and Kadioglu, A. (2010). Impact of soil
drought stress on photochemical efficiency of photosystem II and antioxidant
enzyme activities of Phaseolus vulgaris cultivars. Turk J Bot. 34: 1-10.
Tewari, K.N. (1988). Potassium in soils and crop response to potassium application in
U.P. Annual report of PRII sponsored project, C.S.A.U.A.T. Kanpur, U.P.
Thakur, P.S. and Rai. (1982). Dynamics of amino acide accumulation of two
differentially drought resistant Zea mays cultivars in response to osmotic
stress. Environ Expt Bot. 22: 221-226.
Thaloot, A. T., Tawfik, M.M. and Mohamed, H.M. (2006). A comparative study on
effect of foliar application zinc, potassium, magnesium on growth, yield and
some chemical constituents of mung bean plants grown under water stress.
World J Agric Sci. 2: 37-46.
Thomas, M., Robertson J., Fukai, S. and Peoples, M.B. (2004). The effect of timing
and severity of water deficit on growth development, yield accumulation and
nitrogen fixation of mung bean. Field Crops Res. 86: 67-80.
Timpha, J.D. Burke, J.J., Quisenberry, J.E. and Wendt, C.W. (1986). Effect of water
stress on the organic acid and carbohydrate composition of cotton plants. Plant
physiol. 82: 724-728.
Tint, A.M.M., Sarobol, E., Nakasathein, S. and Chai-aree, W. (2011). Differential
responses of selected soybean cultivars to drought stress and their drought
tolerant attributions. Kasetsart J (Nat. Sci.). 45: 571–582.
Tiwari, H.S., Agarval, R.M. and Bhatt, R.K. (1998). Photosynthesis, stomatal
resistance and related characters as influenced by potassium under normal
water supply and water stress condition in rice (Oryza sativa L.). Indian J
Plant Physiol. 3: 314-316.
Tomemori, H., Hamamura, K. and Tanabe K. (2002). Interactive effects of sodium
and potassium on the growth and photosynthesis of spinach and
komatsuna. Plant Prod Sci. 5: 281-285.
lxxii
Trolldenier, G. (1971). Recent aspects of the influence of potassium on stomatal
opening and closing. In: Proc. 8th
Collog. Intern. Potash. Inst. Berne. pp. 130-
133.
Tsonev, T., Velikova, V., Yildiz-Aktas, L., Gurel, A. and Edreva, A. (2011). Effect of
water deficit and potassium fertilization on photosynthetic activity in cotton
plants. Plant Biosyst. 145: 841-847.
Tuna, A.L., Kaya, C. and Ashraf, M. (2010). Potassium sulfate improves water deficit
tolerance in melon plants grown under glasshouse conditions. J Plant Nutr. 33:
1276-1286.
Turk, K.J. and Hall, A.E. (1980). Drought adaptation cowpea. II. Influence of drought
on plant water status and relations with seed yield. Agron J. 72: 421-427.
Turk, K.J., Hall, A.E. and Asbell, C.W. 1980. Drought adaptation of Cowpea. I.
Influence of drought on seed yield. Agron. J. 72: 413-420.
Turkan, I. and Demiral, T. (2009). Recent developments in understanding salinity
tolerance. Environ Exp Bot. 67: 2-9.
Turkan, I., Bor, M., Ozdemir, F. and Koca, H.(2005). Differential responses of lipid
peroxidation and antioxidants in the leaves of drought tolerant P.acutifolius
Gray and droughtsensitive P.vulgaris L. subjected to polyethylene glycol
mediated water stress. Plant Sci. 168: 223-231.
Turner, D.W. (1995). The response of the plant to the environment. In Bananas and
Plantains, (ed. S. Gowen): Chapman and Hall. London. pp. 206-229.
Turner, L.B. (1985). Changes in the phosphorus content of Capsicum annuum leaves
during water stress. J Plant Physiol. 121: 429-439.
Turner, N.C., Wright, G.C. and Siddique, K.H.M. (2001). Adaptation of grain
legumes (pulses) to water limited environments. Adv Agron. 71: 123-231.
Turuko, M. and Mohammed, A. (2014). Effect of Different Phosphorus Fertilizer
Rates on Growth, Dry Matter Yield and Yield Components of Common Bean
(Phaseolus vulgaris L.). World J Agric Res. 2: 88-92.
lxxiii
Uddin, S., Parvin, S. and Awal, M.A. (2013). Morpho-physiological aspects of
mungbean (Vigna radiata L.) in response to water stress. Int J Agric Sci Res.
3: 137-148.
Ullaah, F., Bano, A. and Nosheen, A. (2012). Effects of plant growth regulators on
growth and oil quality of canola (Brassica napus L.) under drought stress. Pak
J Bot. 44: 1873-1880.
Umar, S. (2006). Alleviating adverse effects of water stress on yield of sorghum,
mustard and groundnut by potassium application. Pak J Bot. 38: 1373-1380.
Umar, S. and Moinuddin. (2002). Genotypic differences in yield and quality of
groundnut as affected by potassium nutrition under erratic rainfall conditions.
J Plant Nutr. 25: 1549-1562.
Umar, S., Afridi, M.M.R.K. and Diwedi, R.S. (1991). Influence of added potassium
on the drought resistance of groundnut. J Potassium Res. 7: 53-61.
Umar, S., Rao, N.R. and Sekhon, G.S. (1993). Differential effects of moisture stress
and potassium levels on growth and K uptake in sorghum. Indian J Plant
Physiol. 36: 94-97.
Unyayar, S., Keles, Y. and Unal, E. (2004). Proline and ABA levels in two sunflower
genotypes subjected to water stress. Bulg J Plant Physiol. 30: 34- 47
Upchurch, R.P., Peterson, M.L. and Hagan, R.M. (1955). Effect of soil-moisture
content on the rate of photosynthesis and respiration in ladino clover
(Trifolium repens L.). Plant Physiol. 30: 297-303.
Uprety, D.C. and Bhatia, A. (1989). Effect of water stress on photosynthesis,
productivity and water status of mungbean (Vigna radiata L. (wilczek). J
Agron Crop Sci. 163: 115-123.
Vanaja, M., Yadav, S.K., Archana, G., Lakshmi, N.J., Reddy, P.R.R., Vagheera, P.,
Razak, S.K.A., Maheswari, M. and Venkateswarlu, B. (2011). Response of C4
(maize) and C3 (sunflower) crop plants to drought stress and enhanced carbon
dioxide concentration. Plant Soil Environ. 57: 207-215.
Vanbel, A.J.E. (1990). Xylem-Phloem Exchange via the Rays: The Undervalued
Route of Transport. J Exp Bot. 41: 631-644.
lxxiv
Vendruscolo, A.C.G., Schuster, I., Pileggi, M., Scapim, C.A., Molinari, H.B.C.,
Marur, C.J. and Vieira, L.G.C. (2007). Stress-induced synthesis of proline
confers tolerance to water deficit in transgenic wheat. J Plant Physiol. 164:
1367-1376.
Venkateswarlu, B., Rao, A.V. and Lahiri, A.N. (1984). Effect of water stress on
nodulation and nitrogenase activity of guar. Hort. 54: 344.
Venkateswarlu, S. and Balasubramanian, V. (1993). Photosynthesis during
reproductive phase of rainfed greengram. Indian J Plant Physiol. 36: 174-177.
Verslus, P.E. and Sharp, R.E. (1999). Proline accumulation in maize (Zea mays L.)
primary roots at low water potentials. II. Metabolic source of increased proline
deposition in the elongation zone. Plant Physiol. 119: 1349-1360.
Viets, F.G. (1972). Water deficits and nutrient availability. In: T.T. Kozolowski, ed.
Water Deficits and Plant Growth. Vol 13. New York: Academic Press.
1972:217.
Virgona, J.M. and Barlow, E.W.R. (1991). Drought stress induces changes in the non-
structural carbohydrate composition of whet stem. Aust J Plant Physiol. 18:
239-247.
Vorasoot, N., Songsri, P., Akkasaeng, C., Jogloy, S., and Patanothai, A. (2003). Effect
of water stress on yield and agronomic characters of peanut (Arachis
hypogaea L.). Songklanakarin J Sci Technol. 25: 283-288.
Vranova, E., Atichartpongkul, S., Villarroel, R., VanMontagu, M., Inze, D. and Van
Camp, W. (2002). Comprehensive analysisof gene expressionin Nicotiana
tabacum leaves acclimated to oxidative stress Proceedings of the National
Academy of Sciences of the United States of America. 99: 10870-10875.
Wagh, R.S., Patil, R.S., Bharud, R.W. and Bhalekar, M.N. (2003). Physiological and
nutritional assessment of somatic hybrid derivatives of tomato (Lycopersicon
esculentum Mill.). 2nd Intl. Cong. Plant Physiol. Jan 8-12, New Delhi, 28.
Wahid, A. and Rasul, E. (2005). Photosynthesis in leaf, stem, flower and fruit In:
Pessarakli M. (Ed). Hand book of Photosynthesis, 2nd Ed., CRC Press,
Florida, pp: 479-497.
lxxv
Walker, C.R., Black, J.A. and Miller, J. (1998). The role of cytosolic potassium and
pH in the growth of barley roots. Plant Physiol. 118: 957-964.
Walkley, A.J. and Black, I.A. (1934). Estimation of soil organic carbon by the
chromic acid titration method. Soil Sci. 37: 29-38.
Wang, M. Zheng, Q., Shen, Q. and Guo, S. (2013). The critical role of potassium in
plant stress response. Int J Mol Sci. 14: 7370-7390.
Waraich, E.A., Ahmad, R., Ashraf, M.Y., Saifullah. and Ahmad, M. (2011).
Improving agricultural water use efficiency by nutrient management in crop
plants. Acta Agriculturae Scandinavica. Section B - Plant Soil Sci. 61: 291-
304.
Waraich, E.A., Ahmad, R., Ashraf, S., and Ehsanullah, M.Y. (2011). Role of mineral
nutrition in alleviation of drought stress in plants. Aust J Crop Sci. 5:764-777.
Weatherley, P.E. (1950). Studies in the water relations of the cotton plant. I. The field
measurement of water deficits in leaves. New Phytol. 49: 81-97.
Weisz, P.R., Denison, R.F. and Sinclair, T.R. (1985). Response to drought stress of
nitrogen fixation (acetylene reduction) rates by field-grown soybeans. Plant
Physiol. 78: 525-530.
Wery, J. (1987). In: Month L, Porceddu E (eds) Agriculture drought resistance in
plants. Physiological and genetic aspects. Commision of the European
Communities.
White, P.J. and Brown, P.H. (2010). Plant nutrition for sustainable development and
global health. Ann Bot. 105: 1073-1080.
Wiebold, B. and P. Scharf. (2006). Potassium deficiency symptoms in drought
stressed crops, plant stress resistance and the impact of potassium application
south China. Agron J. 98:1354-1359.
Wilkinson, S. and Davies, W.J. (2002). ABA-based chemical signaling: the
coordination of responses to stress in plants. Plant Cell Environ. 25: 195-210.
Wilson, D.O. and Reisenauer, H.M. (1963). Cobalt requirements of symbiotically
grown alfalfa. Plant Soil. 19: 364-373.
lxxvi
Witty, J.F., Minchin, F.R., Skot, L. and Sheehy, J.E. (1986). Nitrogen fixation and
oxygen in legume root nodules. Oxford Surveys in Plant Molecular Cell Biol.
3: 275-314.
Woolley, J.T., Hicks, G.P. and Hageman, R.H. (1960). Rapid determination of nitrate
and nitrite in plant material. J Agr Food Chem. 8: 481-482.
World Health Organization. http://www.who.int/ith/en/ 2008.
Wu, F.Z., Bao, W.K., Li, F.L. and Wu, N. (2008). Effects of water Stress and nitrogen
supply on leaf gas exchange and fluorescence parameters of sophora davidii
Seedlings. Photosynthetica. 46: 40-48.
Wu, Q.S., Xia R.X. and Zou, Y.N. (2008). Improved soil structure and citrus growth
after inoculation with three arbuscular mycorrhizal fungi under drought stress.
European J Soil Bio l. 44: 122-128.
Wullschleger, S.D., Yin, T.M., DiFazio, S.P., Schaplinski, T.J., Gunter, L.E., Davis,
M.F. and Tuskan, G.A. (2005). Phenotypic variation in growth and biomass
distribution for two advanced-generation pedigrees of hybrid poplar. Canadian
J For Res. 35: 1779-1789.
Xoconostle-Cazares, B., Ramirez-Ortega, F. A., Flores-Elenes, L. and Ruiz-Medrano,
R. (2010). Drought tolerance in crop plants. Amer J Plant Physiol. 5: 1-16.
Xue, Q., Weiss, A., Arkebauer, T.J. and Baenziger, P.S. (2002). Influence of soil
water status and atmospheric vapor pressure deficit on leaf gas exchange in
field–grown winter wheat. Environ Exp Bot. 51: 167-179.
Xue, X., Liu, A. and Hua, X. (2008) Proline accumulation and transcriptional
regulation of proline biosynthesis and degradation in Brassica napus. BMB
Rep 42: 28-34.
Yadav, B.S., Jadav, N.J. and Golakia, B.A. (1991). Response of maize (Zea mays) to
lime and potassium application in calcareous soil II. Nutrient availability in
soil and plant uptake. J Potassium Res. 7: 293-298.
Yadav, D.S., Goyal, A.K. and Vats, B.K. (1999). Effect of potassium in Eleusine
coracana (L.) Gaertn. under moisture stress conditions. J Pot Res. 15: 131-134.
lxxvii
Yadav, S.K., Jyothi, N., Maheswari, M., Vanaja, M. and Venkateswarlu, B. (2005).
Influence of water deficit at vegetative, Anthesis and grain filling stages on
water relation and grain yield in sorghum. Indian J Plant Physiol. 10: 20-24.
Yadav, V.K., Gupta, V. and Nyflam, Y. (1999). Hormonal regulation of nitrate in
gram (Cicer arietinum) genotypes under drought. Indian J Agric Sci. 69: 592-
595.
Yadov, D.V. (2006). Potassium nutrition of sugarcane. In: Benbi DK et al (eds)
Balanced fertilization for sustaining crop productivity. International Potash
Institute, Horgen, pp 275-288.
Yagmur, M. and Kaydan, D. (2008). Alleviation of osmotic stress of water and salt in
germination and seedling growth of triticale with seed priming treatments. Afr
J Biotechnol. 7: 2156-2162.
Yagoob, H. and Yagoob, M. (2014). The effects of water deficit stress on protein
yield of mung bean genotypes. Peak J Agric Sci. 2: 30-35.
Yang, F. and Miao, L.F. (2010). Adaptive responses to progressive drought stress in
two poplar species originating from different altitudes. Silva Fennica. 44: 23-
37.
Yang, J., Zhang, J., Wang, Z., Zhu, Q. and Liu, L. (2001). Water deficit-induced
senescence and its relationship to the remobilization of pre-stored carbon in
wheat during grain filling. Agron J. 93: 196-206.
Yemm, E.W. and Cocking, E.C. (1955). The determination of amino acids with
ninhydrin. Analyst. 80: 209-213.
Yemm, E.W. and Wills, A.J. (1954). The estimation of carbohydrates in plant extracts
by anthrone. Biochem J. 57: 508-514.
Yildiztugay, E., Ozfidan Konakci, C., Kucukoduk, M. and Duran, Y. (2014).
Modulation of osmotic adjustment and enzymatic antioxidant profiling in
Apera intermedia exposed to salt stress. Turk J Bot. 38: 99-111.
Yokota, A., Kawasaki, S., Iwano, M., Nakamura, C., Miyake C. and Akashi K.
(2002). Citrulline and DRIP-1 Protein (ArgE Homologue) in drought tolerance
of wild watermelon. Ann Bot. 89: 825-832.
lxxviii
Young, E.J., Mark, H. and Stewen, C.W. (1982). Osmotic adjustment and stomatal
conductance in peach seedling under sever water stress. Hort Sci. 17: 791.
Younis, A., Anjum, S., Riaz, A., Hameed, M., Tariq, U. and Muhammad, A. (2014).
Production of Quality Dahlia (Dahlia variabilis cv. Redskin) Flowers by
Efficient Nutrients Management. Am Eurasian J Agric Environ Sci. 14: 137-
142.
Zadehbagheri, M., Mohammad, M., Kamelmanesh, Shoorangiz, J. and Shahram, S.
(2012). Effect of drought stress on yield and yield components, relative leaf
water content, proline and potassium ion accumulation in different white bean
(Phaseolus vulgaris L.) genotype. J Afr Agric Res. 7: 5661-5670.
Zagdanska, B. (1995). Respiratory energy demand for protein turnover and ion
transport in wheat leaves upon water demand. Physiol Plant. 95: 428-436.
Zaidi, P.H., Khan, F.A. and Chaturvedi, G.S. (1994). Physiological role of potassium
under stress environment. Fertilizers News. 39: 47-49.
Zakaria M.S., Saeb A.H., Ahmed E.B. and Abou-El-Ela, R.A. (2006a). Cottonseed,
Protein, Oil Yields and Oil Properties as Affected by Nitrogen Fertilization
and Foliar Application of Potassium and a Plant Growth Retardant. World J
Agric Sci. 2: 56-65.
Zakaria M.S., Saeb A.H., Ahmed, E.B. and Abou-El-Ela, R.A. (2006b). Cottonseed,
Protein, Oil Yields and Oil Properties as influenced by potassium fertilization
and foliar application of zinc and phosphorus. J Agric Sci. 2: 66-74.
Zalvet, Z.S. (2005). Effect of water stress on leaf water relation of young bean. J Cent
Eur Agric. 6: 5-14.
Zanella, F., Watanabe, T.M., Lima, A.L.D.S. and Schiavinato, M.A. (2004).
Phosynthetis performance in Jack bean (Canavalia ensiformis L.). Aust J
Argic Res. 42: 471-484.
Zareian, A., Abad, H., Hamidi, A., Mohammadi, G. and Tabatabaei, S. (2013). Effect
of drought stress and potassium foliar application on some physiological
indices of three wheat (Triticum aestivum L.) cultivars. Ann Biol Res. 4: 71-
74.
lxxix
Zehtab- Salmasi, S., Ghassemi-Golezani, K. and Moghbeli, S. (2006). Effect of
sowing date and limited irrigation on the seed yield and quality of Dill
(Anethum graveolens L.). Turk J Agric. 30: 281-286.
Zeinab, M., Tayeb, S. N. and Alireza, S. F. (2014). The effect of potassium sulfate
fertilizer on potassium accumulation in leaves and stomatal behavior under
deficit irrigation at flowering stage in cowpeas. Int J Plant Anim and Environ
Sci. 4: 215-220.
Zhang L.X., Gao, M., Zhang, L.S., Li, B.Z., Han, M.Y., Alva, K.A. and Ashraf, M.
(2013). Role of exogenous glycinebetaine and humic acid in mitigating
drought stress-induced adverse effects in Malus robusta seedlings. Turk J Bot.
37: 920-929.
Zhang, J., Dell, B., Conocono, E., Waters, I., Setter, T. and Appels, R. (2009). Water
deficits in wheat: fructan exohydrolase (1-FEH) mRNA expression and
relationship to soluble carbohydrate concentrations in two varieties. New
Phytol. 181: 843-850.
Zhang, J., Jia, W., Yang, J. and Ismail, A.M. (2006). Role of ABA in integrating plant
response to drought and salt stresses. Field Crops Res. 97: 111-119.
Zhang, L.X., Gao, M., Li, S., Li, S. and Liang, Z. (2011). Modulation of plant growth,
water status and antioxidantive system of two maize (Zea may L.) cultivars
induced by exogenous glycinebetaine under long term mild drought stress. Pak
J Bot. 43: 1587–1594.
Zhang, L.X., Gao, M., Shengxiu, L.I., Alva, K.A. and Ashraf, M. (2014). Potassium
fertilization mitigates the adverse effects of drought on selected Zea mays
cultivars. Turk J Bot. 38: 713-723.
Zhang, L.X., Gao, M., Zhang, L.S., Li, B.Z., Han, M.Y., Alva, K.A. and Ashraf, M.
(2013). Role of exogenous glycinebetaine and humic acid in mitigating
drought stress-induced adverse effects in Malus robusta seedlings. Turk J Bot.
37: 920-929.
Zhang, L.X., Li, S.X. and Liang, Z.S. (2009). Differential plant growth and osmotic
effects of two maize (Zea mays L.) cultivars to exogenous glycinebetaine
application under drought stress. Plant Growth Regul. 58: 297-305.
lxxx
Zhang, L.X., Li, S.X., Liang, Z.S. and Li, S.Q. (2009). Effect of foliar nitrogen
application on nitrogen metabolism, water status, and plant growth in two
maize cultivars under short-term moderate stress. J Plant Nutr. 32: 1861-1881.
Zhang, M., Duan, L., Zhai, Z., Li, J., Tian, X., Wang, B., He, Z. and Li, Z. (2004).
Effects of plant growth regulators on water deficit-induced yield loss in
soybean. In: Proceedings of the 4th International Crop Science Congress,
Brisbane, Australia.
Zhang, Y.J., Xie, Z.K., Wang, P.X, Su, L.P and Goa, H. (2011). Effect of Water
Stress on Leaf Photosynthesis, Chlorophyll Content, and Growth of Oriental
Lily. Russ J Plant Physiol. 58: 844-850.
Zhao, H.J., Li, P.W., Li, G.M. and Li, S.G. (1991). The effect of fertilizer application
on biochemical qualities of rape. Acta Agron. Sinica. 17: 255-260.
Zhao, T.J., Sun, S., Liu, Y., Liu, J.M., Liu, Q., Yan, Y.B. and Zhou, H.M. (2006).
Regulating the drought responsive element (DRE)-mediated signaling
pathway by synergic functions of trans-active and transinactive DRE binding
factors in Brassica napus. J Biol Chem. 281: 10752-10759.
Zhao, Y., Kamisaka, S. and Masuda, Y. (1985). Quantitative relations between
osmotic potential and epicotyl growth in Vigna radiata as affected by osmotic
stress and cotyledon excision. Physiol Plant. 64, 431-437.
Zimmermann, M.B. and Hurrell, R.F. (2002). Improving iron, zinc and vitamin A
nutrition through plant biotechnology. Curr Opin Biotech. 13: 142-145.
Zosfi, Z., Erika, T., Gyula, V., Densi, R. and Borbala, B. (2008). The effect of
progressive drought on water relations and photosynthetic perfor-mance of
two grapevine cultivars (Vitis vinifera L.). Acta Biol Szeged. 52: 321-322.
Zulini, L., Rubinig, M., Zorer, R. and Bertamini, M. (2007). Effects of drought stress
on chlorophyll fluorescence and photosynthetic pigments in Grapevine Leaves
(Vitis vinifera cv. „White Riesling‟). Proc. Intl. WS on Grapevine. (Eds.) V.
Nuzzo et al. Acta Hort. 754: 289-294.
Zulkarnain, W.M., Ismail, M.R., Ashrafuzzaman, M., Saud, H.M. and Haroun, I.C.
(2009). Rice growth and yield under rain shelter house as influenced by
different water regimes. Int J Agric Biol. 11: 566-570.