Biodiversity Conservation and Management at INTSORMIL Gebisa Ejeta
Biodiversity Conservation and Management at INTSORMIL Gebisa Ejeta Plant Genetics & Breeding Purdue University
The African “center of crop origin” • • Cereals – African rice (Oryza glaberrima), pearl millet (Pennisetum glaucum) (West African drylands), sorghum (Sorghum bicolor) (Abyssinia), tef (Eragrostis abyssinica), fonio (Digitaria exilis) (West Africa) Pulses – cowpea (Vigna linguculata), bambara groundnut (Vigna subterranea), hyacinth bean (Lablab purpureus), kersting's groundnut (Macrotyloma geocarpa) Roots & tuber crops – yam (Dioscorea cayanensis) Oil crops – oil palm (Elaeis guineensis) (West Africa), castor bean (Ricinus communis) Fruits & nuts – baobab (Adansonia digitata) (tropical Africa), watermelon (Citrullus vulgaris) melon (Cucumis melo) (central Africa) Vegetables & spices – okra (Hibiscus esculentus), sesame (Sesamum indicum), egglplant (Solanum aethiopicum) (tropical Africa). Fibers – kenaf (Hibiscus cannabinus L. ) (Western Sudan) Stimulants – coffee (Coffea arabica) (Abyssinia)
VI. Abyssinian Center Abyssinia, Eritrea, and part of Somaliland (Vavilov centers of origin) Miscellaneous Grains & Legumes Abyssinian hard wheat Triticum durum abyssinicum Sesame Sesamum indicum (basic center) Poulard wheat Triticum turgidum abyssinicum Castor bean Ricinus communis (a center) Emmer Triticum dicoccum abyssinicum Garden cress Lepidium sativum Polish wheat Triticum polonicum abyssinicum Coffee Coffea arabica Barley Hordeum sativum Okra Hibiscus esculentus Grain sorghum Andropogon sorghum Myrrh Commiphora abyssinicia Pearl millet Pennisetum spicatum Niger Guizotia abyssinica African millet Eleusine coracana Ensete Musa ventricosum Tef Eragrostis abyssinica Indigofera argente Cowpea Vigna sinensis Flax Linum usitatissimum http: //www. hort. purdue. edu/
Diversity • Diverse ecological conditions and different ethnic customs and preferences resulted in enormous genetic diversity. • Most have shown great resilience and broad adaptation • Global distribution of these species has served humanity well. • Some have had a narrowly defined nich & utility – Example: Teff is a highly valued staple cereal crop in Ethiopia, but is cultivated no where else as a food crop.
Conservation and Management of Genetic Resources: Essential • In situ conservation • Ex situ Conservation • Whose Responsibility? – Partnerships and Dialogue • Ag & Conservation Groups • Scientists & Policy Makers • Rich & Poor Nations – Accountability (community, nation, & donors) – Education, based on demonstrable benefit
Genetic Resource Conservation Activities at INTSORMIL • Collection, characterization, and documentation
Sorghum Domestication China India Sudan Ethiopia Americas early Sorghum bicolor
Sorghum Collections ICRISAT India 36, 719 accessions NPGS USA 42, 221 accessions domestication center
Sources of genetic variation Striga Tolerance Kittgn Aifere - Ethiopia Seguétana - Mali Stand Establishment West African Caudatums Chinese Kaoliangs Drought tolerance Feteritas - Sudan Hegaris - Sudan Transplants - Sudan, Chad, Cameroon Hard Durras - Ethiopia, India Soft Durras - Nigeria Nutritional Quality Cold Tolerance Chinese Kaoliangs Ethiopian Durras Yemen Durras Acid Soils Tolerance Uganda, Zambia, Mali Wotet Begunche Sinde Lamine Indian Durras/Bhasmati Sweet stalks Tanzania Rice Types
Genetic Resource Conservation Activities at INTSORMIL • Collection, characterization, and documentation • Enhance the diversity base of breeding programs
Genetic Resource Conservation Activities at INTSORMIL • Collection, characterization, and documentation • Enhance the diversity base of breeding programs • Facilitate open exchange and distribution
Released in the Amhara region of Ethiopia, 2001 under the name “Brhan”
Genetic Resource Conservation Activities at INTSORMIL • • Collection, characterization, and documentation Enhance the diversity base of breeding programs Facilitate open exchange and distribution Conduct diversity analysis (ex-situ , in-situ) – Morphological – Molecular
Genetic Diversity in Cultivated Sorghums • Genetic Diversity in Cultivated Races of Sorghum (Menkir et al. , 1997. Crop Sci. 37: 564) – 190 acc. from four geographic regions of origin (Far and Middle East, Central and Eastern Africa, Southern Africa, Western Africa) - 162 polymorphic RAPD bands – Cultivated races with limited amount of genetic differentiation Low level of differentiation among regions – Genetic distances estimates to help identifying suitable germplasm for introgression into breeding stocks • Phenotypic Diversity among Sudanese Landraces (Grenier et al. , 2003. GRES in press) – 2, 017 acc. Sudanese landrace collection - 19 morpho-agronomic characters – Different distribution of phenotypic diversity among regions Specific patterns of phenotypic diversity for each geographical area of origin – Phenotypic diversity to highlight selective pressures that have reduced the variation to certain ideotypes
Genetic Diversity in Cultivated Races of Sorghum Regions Far and Middle East Central and Eastern Africa Southern Africa Western Africa 0. 350 a 0. 357 bc 0. 356 c 0. 375 b 0. 353 ab 0. 348 b 0. 365 ad 0. 305 a 0. 374 b 0. 358 a Mean genetic distance estimates calculated from 162 polymorphic RAPD bands for all pairs of accessions from either one or two geographic regions of origin (Menkir et al. , 1997. Crop Sci. 37: 564)
Gezira. Gedarif Kassala Blue Nile Upper Nile Equatoria Principal component analysis on the total Sudanese landrace collection (2, 017 acc. ) and for nine quantitative morpho-agronomic characters (Grenier et al. , 2003. GRES in press) Phenotypic Diversity among Sudanese Landraces
Genetic Resource Conservation Activities at INTSORMIL • • Collection, characterization, and documentation Enhance the diversity base of breeding programs Facilitate open exchange and distribution Conduct diversity analysis (ex-situ , in-situ) – Morphological – Molecular • Assess extent of gene flow bet. Wild & Cultivated
Gene Flow Between Cultivated and Wild Sorghums in Africa
Genetic Resource Conservation Activities at INTSORMIL • • Collection, characterization, and documentation Enhance the diversity base of breeding programs Facilitate open exchange and distribution Conduct diversity analysis (ex-situ , in-situ) – Morphological – Molecular • Assess extent of gene flow bet. Wild & Cultivated • Investigate extent of real genetic erosion
Genetic Resource Conservation Activities at INTSORMIL • • Collection, characterization, and documentation Enhance the diversity base of breeding programs Facilitate open exchange and distribution Conduct diversity analysis (ex-situ , in-situ) – Morphological – Molecular • Assess extent of gene flow bet. Wild & Cultivated • Investigate extent of real genetic erosion • Facilitate repatriation and/or new introduction
Biomass & Biofuel Potential?
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