seaweed systematics
TRANSCRIPT
SEAWEEDSThe multicellular Marine
AlgaeCHRISTIAN JAY RAYON NOB
BY:
MINDANAO STATE UNIVERSITY-NAAWAN CAMPUSBS-MARINE BIOLOGY III
Macroscopic multicellular marine algae are referred as seaweed and are found at different levels between the tide marks end in sublittoral habitats. Members of three classes of algae mainly involved are the rhodophyceae, chlorophyceae, and phaeophyceae and, and the representatives grow attached to rocky substrata, are found as epiphytes, and are sometimes rooted in the sand.
INTRODUCTION- - -
INTRODUCTION- - -
Rhodophyceae Grow as single-celled plants or
plants that grow as filaments, branched plants, broad flat plates, and ruffled plants. They come in a variety of sizes, but most red algae are small. All species attach to substrate such as rock or coral and sometimes to an animal shell or even another algae species
INTRODUCTION- - -
Rhodophyta: Red algae
Example: Rhodymenia palmate
Characteristics: The red colour of these algae results from the pigments phycoerythrin and phycocyanin; this masks the other pigments, Chlorophyll a (no Chlorophyll b), beta-carotene and a number of unique xanthophylls. The main reserves are typically floridean starch, and floridoside; true starch like that of higher plants and green algae is absent. The walls are made of cellulose and agars and carrageenans, both long-chained polysaccharide in widespread commercial use. There are some unicellular representatives of diverse origin; more complex thalli are built up of filaments.
INTRODUCTION- - -
Phaeophyceae Contain the largest and most complex algae
plants. Pacific kelp are a brown algae species. There are no unicellular or colonial forms of brown algae. This algae are commonly found attached to the substrate in cool, shallow waters near the shore in temperate and sub polar regions. Some forms of brown algae have developed adaptations to survive life on the coast where they may be pounded by surf or submerged then exposed with the tide. Large brown algae are used as shelter for some bottom-dwelling animals. They also provide serve as substrate for other algae that grow as epiphytes, or plants that grow on other plants.
INTRODUCTION- - -
Phaeophyceae: Brown Algae
Examples: Laminaria and Saccharina, Fucus,
Sargassum muticum
Characteristics: The brown colour of these algae results from the dominance of the xanthophyll pigment
fucoxanthin, which masks the other pigments, Chlorophyll a and c (no Chlorophyll b), beta-carotene and other xanthophylls. Food reserves are typically complex polysaccharides, sugars and higher alcohols. The principal carbohydrate reserve is laminaran, and true starch is absent (compare with the green algae). The walls are made of cellulose and alginic acid, a long-chained heteropolysaccharide.
INTRODUCTION- - -
ChlorophyceaeThe most biodiverse of the algaes with
species that grow in a variety of forms and in a variety of habitats (the Charophyta are found entirely in freshwater for example). They are typically small and simple, with many single-celled species, some that form branched filaments, hollow balls of cells, or broad, flat sheets. Some species attach to sandy shores by secreting a calcareous cement rather than holdfasts that might shift with the sand and become unstable.
INTRODUCTION- - -
Chlorophyceae: Green Algae
Examples: Chlamydomonas, Spirogyra, Ulva.
Characteristics: Green colour from chlorophyll a and b in the same proportions as the 'higher' plants; beta-carotene (a yellow pigment); and various characteristic xanthophylls (yellowish or brownish pigments). Food reserves starch, some fats or oils like higher plants. Some green algae are to be the progenitors of the higher green plants but there is currently some debate on this point.
INTRODUCTION- - -
The term seaweed grows almost exclusively in the shallow waters at the edge of the world's oceans. They provide home and food for many different sea animals, lend beauty to the underwater landscape, and are directly valuable to man as a food and industrial raw material.
SYSTEMATICS HISTORY OF SEAWEEDS---
The evolution of micro algae and macro algae on earth.
SYSTEMATICS HISTORY OF SEAWEEDS- - -
Beginning about 600 million years ago, seaweed was one of these early plants with more than one cell. Seaweed lived in the ocean. During the Proterozoic period, when seaweeds first evolved, the Earth was much colder than it is now. Most of the Earth's water was probably frozen into ice, and the oceans were shallower than they are now. Seaweed evolved to live in shallow ocean water, where there was enough sunlight for photosynthesis, and rocks to attach themselves to.
SYSTEMATICS HISTORY OF SEAWEEDS- - -
For centuries, seaweed has inspired botanical, industrial, and pharmaceutical interest. Because of the high nutrient content, seaweed has been used as food throughout Asia. Traditional Chinese medicine used hot water extracts of several types of seaweed in the treatment of cancer. Additionally, the Japanese and Chinese cultures used seaweed to treat goiter and other glandular problems as long ago as 300 BC.
SYSTEMATICS HISTORY OF SEAWEEDS- - -
SEAWEED AS FOOD SEAWEED KEPT THE LAND FERTILE MINERALS FROM SEAWEED CAMOUFLAGE, CUSTARD AND PARACHUTES –
ALGINATES TAKE CENTRE STAGE SEAWEED INTO THE FUTURE
THE IMPORTANCE OF SEAWEED ACROSS THE AGES
SEAWEED BIODIVERSITY---
It is estimated that there are ~10,000 species of seaweed occur intercontinental. There are three groups of seaweeds recognized, according to their pigments that captivate light of certain wavelengths and give them their characteristics colours of green, brown and red. Because they need light to survive, seaweeds are found only in the relatively shallow parts of the oceans, which means around the shores.
SEAWEED BIODIVERSITY- - -
Marine algae are abundant throughout the ocean and can either float freely or cling to substrate such as rocks and reefs. The majority of seaweeds are classified as red algae (~6,000 species). There are also brown algae (~2,000 species) and green algae (~8,000 species). None of the algae species are known to be poisonous, and many species are harvested for human consumption.
SEAWEED BIODIVERSITY- - -
Rhodymenia palmate Palmaria sp.
Red seaweeds
SEAWEED BIODIVERSITY- - -
Laminaria dentigera
Brown seaweeds
SEAWEED BIODIVERSITY- - -
Halimeda cuneata Caulerpa racemosa
Green seaweeds
SEAWEED BIODIVERSITY- - -
Some species of marine macro benthic algae, including many species of Cyanophyta, are reported in the Philippines. This consist of 472 species of Rhodophya belonging to 37 families and 11 orders, 134 species of Phaeophyta belonging to 10 families and 7 orders and 214 species of Chlorophyta belonging to 11 families and 7 orders.
SEAWEED BIODIVERSITY- - -
The Philippines is an archipelago comprising numerous islands and is endowed with a high level of biodiversity which includes aquatic marine plants and animals. Among the aquatic plants which are economically valuable both locally or internationally are the following: Caulerpa, Eucheuma, Gelidiella, Gracilaria, Kappaphycus, Porphyra and Sargassum. With the exeption of Gelideilla, Porphyra, and Sargassum, the rest are cultivated, however, the cultivation of Kappaphycus is the most expensive.
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Chaetomorpha crassa
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: Chlorophyta Class: Ulvophyceae Order: Cladophorales Family: Cladophoraceae Genus: Chaetomorpha
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Caulerpa racemosa
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: Chlorophyta Class: UlvophyceaeOrder: Bryopsidales Family: Caulerpaceae Genus: Caulerpa
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Enteromorpha intestinalis
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: ChlorophytaClass: Ulvophyceae Order: Ulvales Family: Ulvaceae Genus: Enteromorpha
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Ulva lactuca
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: Chlorophyta Class: Ulvophyceae Order: Ulvales Family: Ulvaceae Genus: Ulva
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Gracilaria verrucosa
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: Rhodophyta Class: Florideophyceae Order: Gracilariales Family: Gracilariaceae Genus: Gracilaria
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Rhodymenia palmate
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: Rhodophyta Class: Florideophyceae Order: Rhodymeniales Family: Rhodymeniaceae Genus: Rhodymenia
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Laminaria dentigera
Classification:
Empire:Eukaryota Kingdom: Chromista Phylum: Heterokontophyta Class: Phaeophyceae Order: Laminariales Family: Laminariaceae Genus: Laminaria
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Monostroma fuscum
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: Chlorophyta Class: Ulvophyceae Order: Ulotrichales Family: Gomontiaceae Genus: Monostroma
SELECTED SEAWEED SPECIES WITH IT’S CLASSIFICATION- - -
Codium dichotomum
Classification:
Empire: Eukaryota Kingdom: Plantae Phylum: Chlorophyta Class: Ulvophyceae Order: Bryopsidales Family: Codiaceae Genus: Codium
SEAWEED’S ANATOMY---
Frond - A thallus or thalloid shoot (As of lichen or seaweed) resembling a leaf.
Blade – The flat expanded part of a leaf as distinguished from the petiole.
Gas bladder – An air-filled sac or float.
Stipe - A stalk that supports some other structure. Connects the holdfast and blade of a fronds alga.
Hold fast - a root-like structure that anchors aquatic sessile organisms, such as seaweed, and other sessile algae.
DICHOTOMOUS KEY- - -
DICHOTOMOUS KEY- - -
DICHOTOMOUS KEY- - -
PHYLOGENETIC TREE OF SEAWEED- - -
Phylogenetic Tree (evolutionary history of land plants) where Seaweeds evolve.
MOLECULAR TECHNIQUES OF THE SYSTEMATICS OF SEAWEED- - -
Identification of seaweeds has been based on morphology but in the last decade or so, MOLECULAR TECHNIQUES have INCREASINGLY been USED for identification, notably DNA BARCODING where a short piece of DNA IS USED TO DISTINGUISH BETWEEN SAMPLES. These data have revealed so much undiscovered diversity and are changing biodiversity concepts and patterns of distribution. Similarly, Seaweed taxonomy has been based primarily on morphology but, it is now based largely on molecular taxonomic approach.
OTHER IDENTIFICATION TECHNIQUES OF THE SYSTEMATICS OF SEAWEED- - -
Morphology
Anatomy
Pigments
Reproduction
LIST OF SEAWEEDS SPECIES- - -
CLASS GENUS SPECIES COMMON NAME
1 ChlorophyceaeCodium fragile
Dead man's fingers
2 ChlorophyceaeUlva lactuca Sea lettuce
3 ChlorophyceaeCladophora columbiana Green tuft
4 RhodophyceaePalmaria molis Red ribbon
5 RhodophyceaeLomentaria hakodatensis Sea tangle
6 RhodophyceaeSarcodiotheca gaudichaudii Sea noodles
7 PheophyceaeLeathesia difformis Sea cauliflower
8 PheophyceaeSaccharina latissima Sugar kelp
9 PheophyceaeRalfsia fungiformis Sea fungus
REFERENCES
Gabriel D., M.I. Parente, A.I. Neto, M. Raposo, T. Schils& S. Fredericq. 2010. A phylogenetic appraisal of the genus Platoma (Nemastomatales, Rhodophyta), including life history and morphological observations on P. cyclocolpum from the Azores. Phycologia 49: 2-21. Gellini, R. and Paoletti, E. 1993. Herbarium specimens shed light on climatic and environmental changes. Webbia 48: 191– 196.
Lehmkuhl, K. Virginia. (2003). Investigations into the diversity and molecularrelatedness of theEuropean species of the red algal genus Plocamium (Plocamiales, Florideophyceae): Recognizing cryptic species. University of New Brunswick (Canada).
S. Fredriksen, M. D. Guiry, and J. Rueness (1994) Morphological and biosystematic studies of Gelidium pusillum and G. pulchellum (Gelidiaceae, Rhodophyta) from Europe. Phycologia: November 1994, Vol.33, No. 6, pp. 462-470.
REFERENCES
http://www.biodiv/life.org.chm.html http://www.environment.gov.au/life/chm/chm2.html
http://www.algaebase.com http://seaweed.ucg.ie/Cultivating/NoriProcessing.html
http://www.teara.govt.nz/en/seaweed/page-1
http://news.sciencemag.org/evolution/2011/02/scienceshot-ancient-seaweed-rewrites history
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