exploratory research in corn and wheat - virginia
DESCRIPTION
Exploratory Research in Corn and Wheat - Virginia. 0.9. 7. 0.8. 6. 0.7. 5. 0.6. NDVI. 0.5. Yield, Mg ha -1. 4. 0.4. 3. 0.3. 2. 0.2. 0.1. 1. 0. 0. 0. 0.001. 0.002. 0.003. 0.004. 0.005. 0.006. 0.007. Tiller Density. Predicted Yield Index. 0. 500. 1000. 1500. 2000. - PowerPoint PPT PresentationTRANSCRIPT
Exploratory Research in Corn and Wheat - VirginiaExploratory Research in Corn and Wheat - Virginia
Previous Virginia ResearchPrevious Virginia ResearchN
DV
I
Tiller Density
0
0.30.4
0.50.6
0.70.8
0.9
0 500 1000 1500 2000
0.10.2
Predicted Yield Index
Yie
ld,
Mg
ha-1
0
1
2
3
4
5
6
7
0 0.001 0.002 0.003 0.004 0.005 0.006 0.007
Spring N rates for VA wheat production can be Spring N rates for VA wheat production can be determined using spectral reflectance sensors and determined using spectral reflectance sensors and applied at a 4-ftapplied at a 4-ft22 resolution using commercial resolution using commercial equipmentequipment
Standard VA Rotation
(3 crops in 2 years) Standard VA Rotation
(3 crops in 2 years)
No-till Corn
Conv.-till Wheat
No-till DC Soybean
No-till Corn
Conv.-till Wheat
No-till DC Soybean
ObjectivesObjectives Refine current methods of determining variable topdress N rates and incorporate foliar P recommendations into fertilization algorithms for wheat using sensor-based technology
Develop a sensor-based N and P fertilization strategy for Virginia corn production
Evaluate the benefits of foliar P applications for wheat and corn production
Experimental Procedures - Obj. 1Experimental Procedures - Obj. 1
TREATMENT STRUCTURE
Trt GS 25 N GS 30 N Resolution
------- lb N / acre -------
1 0 0 NONE2 30 60 FLAT RATE3 0 120 FLAT RATE4 60 60 FLAT RATE5 120 0 FLAT RATE6 0 NFOA 1 m
2
7 TILLER NFOA 1 m2
8 TILLER TISSUE FLAT RATE
13 0 NFOA3 1 m2
14 TILLER NFOA3 1 m2
15 0 NFOA3+PFOA2 1 m2
16 TILLER NFOA3+PFOA2 1 m2
9 0 NFOA2 1 m2
10 TILLER NFOA2 1 m2
11 0 NFOA2+PFOA1 1 m2
12 TILLER NFOA2+PFOA1 1 m2
Year 2Year 2
Year 3Year 3
6 site years (2 in each of 3 yr) RCBD; 3 replications
Experimental Procedures - Obj. 2Experimental Procedures - Obj. 2 12 site years (4 sites in each of 3 yr)
Irrigated and non-irrigated Conventional and no till
RCBD; 3 replications Preplant N (0 to 240 lb N/acre) Starter N (0 to 70 lb N/acre) Sidedress N (0 to 150 lb N/acre)
Plots will be fertilized and
harvested using conventional plot
equipment
Experimental Procedures - Obj. 2Experimental Procedures - Obj. 2 Spectral measurements
collected from canopy at V4, V6, V8, and V10
Chlorophyll and tissue N and Pwill be measuredat same growth stages
A PSNT will be conducted for each treatment prior to sidedress N applications at V6
Preliminary Results - Obj. 2Preliminary Results - Obj. 2
0
30
60
90
120
150
180
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
NDVI, V8
Yie
ld, b
u/a
cre
Dryland, No N
Irrigated, No N
Dryland, Added N
Irrigated, Added N
Determine from soiltest
Residual P can carryover from starterapplication toprevious crops
P can be banded withwheat crop
Foliar P Applications in VirginiaFoliar P Applications in Virginia
Preplant P2O5 Tiller Density Grain Yield
-- lb/acre -- -- tillers/ft2 -- -- bu/acre --0 50 83
30 70 8560 80 9690 95 93
120 95 95
PHOSPHORUS RESPONSEPHOSPHORUS RESPONSE
Foliar P ApplicationFoliar P Application
Foliar P No preplant P 90 lb P2O5
-- lb P2O5/acre -- -- bu/acre -- -- bu/acre --0 77 904 84 908 84 93
12 87 98
Preplant P STP 1/3 STP 2/3 STP
Preplant P STP 1/3 STP 2/3 STP
Foliar P rates 0, 4, 8, and 12 lb P2O5/acre for wheat (double for corn)
Applied at GS30 or V6
Foliar P rates 0, 4, 8, and 12 lb P2O5/acre for wheat (double for corn)
Applied at GS30 or V6
Experimental Procedures - Obj. 3Experimental Procedures - Obj. 3
12 site years (4 sites in each of 3 yr) 2 corn and 2 wheat No till
12 site years (4 sites in each of 3 yr) 2 corn and 2 wheat No till
Expected ResultsExpected Results Virginia producers will have the knowledge required to implement existing variable-rate fertilizer technology into standard cash grain production systems
Grain yields will increase by applying nutrients at the resolution where variability exists
Nitrogen use efficiency will increase 30 to 50% while soil-applied P fertilizer will be reduced 50 to 100%