AWS Community Day CPH - Three problems of Terraform
Domestication,utilization and conservation of superior agroforestry germplasm
1. Global Research Project 1 (GRP 1) Domestication,utilization and conservation of superior agroforestry germplasm http://www.worldagroforestrycentre.org/research/grp1_agroforestry_germplasm Presentation by GRP 1 team HQ and ICRAF Regions Science Week, 12 – 17 September 2011
2. Global exports value for some tree commodities (Edible) 2001-2008 (US$ ‘000) Source: FAOSTAT, 2011 $ 126,282,549,680 industry
3. The Right Trees for the Right Place A. Trees for Products fruit firewood medicine income sawnwood fodder B. Trees for Services soil fertility carbon sequestration watershed protection soil erosion shade biodiversity
4. GRP 1 sub projects GRP1.1: Improved tree planting material produced (fruit, medicinals, fertilizer, bioenergy, timber, etc.) to contribute to mitigating global challenges of hunger, health, climate change and environmental degradation. ( CRP 6, CRP 4) GRP 1.2: Access to quality agroforestry tree germplasm for smallholder farmers through formal and informal sector supply systems and development of associated extension information that influences production, use and adoption. Address best conservation strategies for agroforestry trees. (CRP 1 , CRP 6)
5. Highlights of some GRP 1 achievements 2010-2011 Decision Support Tools: Knowledge that influences production, use, adoption and conservation of treesRoeland Kindt Understanding and using phenotypic variation Carmen Sotelo and John Weber New molecular approaches to enhanced tree productivity Ian Dawson Allanblackia domestication Daniel Ofori Student SuccessesRamni Jamnadass
6. Decision-support tools for species selection “ICRAF have a nifty new tool out called Useful Tree Species for Africa. I’ve been playing around with it and I have to say it’s impressive.” Luigi Guarino http://agro.biodiver.se/)
7. Decision-support tools for species selection Why did we develop these tools? “the right trees for the right place” Advise our clients on good candidate species for planting in a particular area Point location data are not sufficient for statistical modelling for most species How did we develop these tools? By using vegetation maps and data on their species assemblages
15. Suggested method for using the tool3. Select species ... links to ICRAF’s Agroforestry Tree database
16. A higher resolution map will be ready very soon for 7 countries in eastern Africa (Ethiopia, Kenya, Malawi, Rwanda, Uganda, Tanzania and Zambia) http://www.sl.life.ku.dk/English/outreach_publications/computerbased_tools/vegetation_climate_change_eastern_africa.aspx
17. A higher resolution map will be ready very soon for 7 countries in eastern Africa (Ethiopia, Kenya, Malawi, Rwanda, Uganda, Tanzania and Zambia) A collaborative effort by: Ethiopia: DemissewSebsebe and Ib Friis Kenya: Francis Gachathi Malawi: Cornell Dudley Rwanda: Christopher Ruffa and MinaniVédaste Tanzania: Frank Mbago and HerielMoshi Uganda: James Kalema, John Mulumba and Mary Namaganda Zambia: Mike Bingham F&L Denmark: Jens-Peter Lillesø and Lars Graudal ICRAF: Roeland Kindt and Paulo van Breugel http://www.sl.life.ku.dk/English/outreach_publications/computerbased_tools/vegetation_climate_change_eastern_africa.aspx
18. Geographic variation in wood properties – correspondence between provenance/progeny tests and studies in natural populationsCarmen Sotelo Montes and John C. Weber, West and Central Africa, Sahel Node Background: 90% of tree species used for fuel and other wood products in Sahel Tree species disappearing due to hotter/drier climate in Sahel Research about variation in wood properties in Sahel is needed to select better germplasm and develop climate change adaption plans Wood properties vary with rainfall, and rainfall varies with latitude and longitude in Sahel Wood properties generally under relatively strong genetic control, so much of the variation in natural populations is genetic This research provides recommendations for improving wood properties in a changing climate
19. Hypothesis and justification Hypothesis: patterns of geographic variation in wood properties similar in provenance tests and natural populations Hypothesis tested using calorific value of Balanitesaegyptiaca wood, a priority species in Sahel for fuel, construction, furniture, etc. Why is this important? Because if results similar, then variation in natural populations could be used to identify genetic trends in wood properties and make recommendations about germplasm collections to improve wood properties This would save time and money for domestication programmes
20. Methodology Study in natural populations in Mali Provenance test in Niger Individual trees sampled along rainfall gradients Multiple regression: calorific value ofindividual trees with geographical coordinates Mother trees sampled along rainfall gradients Test established at one dry site Multiple regression: mean calorific value of provenances with geographical coordinates
21. Results Patterns of geographic variation similar in provenance test and natural populations: calorific value higher in more humid locations Predicted relationships between geographical coordinates and gross calorific value (GCV) of B. aegyptiacawood Trees in natural populations in Mali Provenances in Niger Lower rainfall Higher rainfall Higher rainfall Lower rainfall GCV (kcal/kg) R2 = 0.55, P < 0.01 East West North South Latitude (°N) Longitude(°W)
22. Impact pathway * Partners: NARs and IFAD developmentprojects in Niger (INRAN, PPILDA), Burkina Faso (INERA, PDRD, PICOFA) and Mali (IER, FODESA), and universities in Brazil (UFRRJ, UFRP)
23. Nextsteps Determine if relationshipswithrainfalland otherwoodproperties are similar in provenance test in Niger and natural populations of B. aegyptiacain Mali - for examplewoodstrength, color, anatomy and gasemissions Study variation in woodproperties in natural populations of otherspecies and compare with new provenance tests on farms in Niger Synthesize and results and makerecommendations to improvewoodproperties in a changingclimate Measuring color Measuringstrength
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25. Sotelo Montes C, Weber JC, Garcia RA, Silva DA, Muñiz GIB. 2010. Variation and correlations in traits of Prosopisafricana and Balanitesaegyptiaca in the West African Sahel: implications for tree domestication programs. Forests, Trees and Livelihoods. 19:289-298.
26. Sotelo Montes C, Silva DA, Garcia RA, GIB, Weber, JC. 2011. Calorific value of Prosopisafricana and Balanitesaegyptiaca wood in the West African Sahel. Biomass and Bioenergy 35:346-353.
27. Weber JC, Larwanou M, Abasse TA, Kalinganire A. 2008. Growth and survival of Prosopisafricana provenances tested in Niger and related to rainfall gradients in the West African Sahel. Forest Ecology and Management 256:585-592.
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29. A possible approach for a magnitude of reduction in development expense is ‘tagged’ Illumina Solexa second generation sequencing
30. Trial on 36 tree species important to smallholders, from a wider pool of priority species identified by ICRAF scientists
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32. Affordable molecular markers for agroforestry trees: developing expressed sequence-tagged site simple sequence repeats for 36 species 36 species that give the best quality RNA from the following list... Already sequenced Ready to sequence Subset of remainder to add....
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34. David Neale (Conifer Translational Genomics Network) will discuss the topic tomorrow
38. AB domestication programme - Ghana, Tanzania, Nigeria and Cameroon.Science forum, 12 – 17 September 2011
39. Status of propagation <5% in 24 months 75 % in 10 months Stem cuttings = 67% Marcotting = 40%
40. Reduction of gestation period through grafting Fruits on 4-year old graft in Cameroon Grafted in 2006, planted in 2007, first flowered in 2008 Asaah et al., 2011 T-Budding= T-budded graft; ST-Al = side tongue graft protected with aluminium foil; ST-NPP = side tongue graft protected with non perforated plastic; ST-PP = side tongue graft protected with perforated plastic Seedling planted in 2004 in Ghana Fruited at 7 years old
41. Tree-to-tree variation in stearic acid content in seed fat from Allanblackiafloribunda Atangana et al 2011 Highly significant different (P < 0.0001) Stearic = 44.16% to 66.12%,
42. Creation of AB cultivar via grafting Variation in Allanblackia fruits Earlier fruiting after 4 years, smaller tree, anticipated uniform Allanblackiafruits
48. Celebrating some of our students (2010-2011) Dr. Jonathan Muriuki : PhD awarded University of Natural Resources and Life Sciences, Vienna BoKu, Austria Medicinal Trees in Agroforestry Systems Stepha McMullin: PhD viva this week University College Dublin, Ireland Use and Marketing of Traditional Herbal Medicine (THM) in Kenya Sammy Carsan: PhD submitted University of Free state South Africa Transitions in smallholder coffee based systems of Mt. Kenya
49. Noel Onyango (MSc) submitted 2011 Kenyatta University, Kenya Identification of specific markers linked to regional differentiation of Warburgiaugandensis in Kenya NkathaMuriungi(MSc) Submitted 2011 Kenyatta University, Kenya Impact of forest fragmentation and domestication on genetic diversity of Warbugiaugandensiswithin Lake Victoria region Anne Sennhenn(MSc) finalizing Ernst-August University Goettingen, GermanyIdentification and classification of local mango varieties in Kenya using morphological and molecular approaches Kennedy Olale (MSc) Submitted 2011 University of Nairobi, Kenya Multivariate Calibration Models Using Infrared Spectroscopy on Wood density, Carbon and Nitrogen across Species In Tropical Agroforestry
GRP 1 seeks to improve and optimize the productivity of agroforestry systems specifically through tree improvement and access to quality germplasm thereby conferring economic, social and environmental sustainability in smallholder farming systems. .
Why Tree improvement : Application of genetic principles to improve plant and animals has and continues to be employed on most species that are today commercially important . Hence a huge opportunity exists to enhance the functional and economic values of hundreds of AF trees that farmers want and plant..Why? To the enhance the functional and economic value of for fruit trees, to enhance nutritional balance, shelf life, disease resistance , consistent and dependable supply…etc
Research within GRP 1 is organized under two sub-projects.GRP 1.1 Characterization of tree genetic resources for agroforestry and pathways for geneticimprovement that balance long term maintenance of genetic diversity withachievable short and medium term levels of genetic gain in adaptability to diverseand changing environmentsGRP 1.2 Access for smalholders to improved agroforestry tree germplasm through formaland informal sector supply systems and associated information that influencesproduction, use, adoption and conservation of trees of farm
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This is the situation in the SahelTree specie disappearing due to climate changeRainfall gradients with latitude and longitudeMost tree species used for fuelwoodLittle research about varition wood propertiesWood properties under strong genetic control so much of the variation is due to genesThis research project will help in climate change adaptation planningFew studies in variation of wood properties
Regarding the impacts, we expect greater resilience of parklands and rural livelihoods to climate change; production and sale of improved seed by villagers; establishment of woodlots using improved seed in parklands; and stronger capacity of partners to conduct wood science research
This work is not exclusive to ICRAF...Marie-Louise at the University of Tschang, many others not at ICRAF...