Advertisement

Bringing Stability to World Food Supplies with Japanese Technology and Mexican Genetic Resources

  • Kazuo Watanabe
Chapter

Abstract

Genebank conservation research was highlighted on unique but underutilized crop species as a SATREPS project among Mexican genebank, its domestic partner institutions, and Japanese collaborators.

Notes

Acknowledgments

Author represents various members at GRC, UT, and NARO Genetic Resources Center, Tsukuba, Japan. Japanese members appreciate the cordial collaboration by the Mexican colleagues. Author acknowledges the collaborative research with SATREPS, INIFAP, SAGARPA, and genebanks at Caribbean and Central American nations to support the context of this publication. Also this publication was made as a part of research at Plant Transgenic Design Initiative (PTraD) within the Gene Research Center, University of Tsukuba, to expand its international efforts to Mexico.

References

  1. Altieri MA, Merrick LC (1987) In situ conservation of crop genetic resources through maintenance of traditional farming systems. Econ Bot 41(1):86–96CrossRefGoogle Scholar
  2. Argout X et al (2011) The genome of Theobroma cacao. Nat Genet 43:101–108.  https://doi.org/10.1038/ng.736 CrossRefPubMedGoogle Scholar
  3. Avendaño Arrazate CH et al (2010) Las variedades del chayote Mexicano, recurso ancestral con potencial de comercialización. Grupo Interdisciplinario de Investigación en Sechium edule en México A.C. (GISeM), Mexico (in Spanish)Google Scholar
  4. Bendhifi Zarroug M et al (2015) Genetic diversity and phylogenetic relationship among Tunisian cactus species (Opuntia) as revealed by random amplified microsatellite polymorphism markers. Genet Mol Res 14(1):1423–1433.  https://doi.org/10.4238/2015.Fenruary.13.21 CrossRefPubMedGoogle Scholar
  5. Borrayo E, Machida-Hirano R, Takeya M, Kawase M, Wtanabe K (2016) Principal components analysis – K-means transposon element based foxtail millet core collection selection method. BMC Genet 17:42.  https://doi.org/10.1186/s12863-016-0343-z CrossRefPubMedPubMedCentralGoogle Scholar
  6. Cadena Iñiguez J et al (2007) Production, genetics, postharvest management and pharmacological characteristics of Sechium edule (Jacq.) Sw. Fresh Produce 1(1):41–53Google Scholar
  7. Chanderbali AS et al (2008) Persea americana (avocado): bringing ancient flower to fruit in the genomic era. BioEssays 30(4):386–396.  https://doi.org/10.1002/bies.20721 CrossRefPubMedGoogle Scholar
  8. Chavez-Moreno CK, Casas A, Tecante A (2009) The Opuntia (Cactaceae) and Dactylopius (Hemiptera: Dactylopiidae) in Mexico: a historical perspective of use, interaction and distribution. Biodivers Conserv 18:3337–3355.  https://doi.org/10.1007/s10531-009-9647-x CrossRefGoogle Scholar
  9. Engels JMM, Rao RV, Brown AHD, Jackson MT (2001) Managing plant genetic diveristy. C.A.B. International, Wallingford, 487 pGoogle Scholar
  10. Finti A et al (2013) Genetic structure of cactus pear (Opuntia Ficus Indica) in Moroccan collection. Atlas J Plant Biol 1(2):24–28.  https://doi.org/10.5147/ajpb.2013.0074 CrossRefGoogle Scholar
  11. Fris-Hansen E, Sthapit B (eds) (2000) Participatory approaches to the conservation and use of plant genetic resources. International Plant Genetic Resources Institute, Rome, 214 pGoogle Scholar
  12. Ganopoulos I et al (2015) Genetic diversity of Barbary fig (Opuntia ficus-indica) collection in Greece with ISSR molecular markers. Plant Gene 2:29–33CrossRefGoogle Scholar
  13. Gene Research Center (2018) Gene Research Center, University of Tsukuba, Japan. https://www.gene.tsukuba.ac.jp/en. Browsed on July 6, 2018
  14. Gilani SA, Hirano R, Fujii Y, Watanabe K (2014) AFLP and PBA polymorphisms in an endangered medicinal plant, Rhazya stricta in Pakistan. Plant Genet Resour 12:199–206CrossRefGoogle Scholar
  15. Harlan JR (1992) Crops and man, 2nd edn. American Society of Agronomy, 284 p. 978-0891181071Google Scholar
  16. Illoldi-Rangel P et al (2012) Opuntia in Mexico: identifying priority areas for conserving biodiversity in a multi-use landscape. PLoS One 7(5):e36650.  https://doi.org/10.1371/journal.pone.0036650 CrossRefPubMedPubMedCentralGoogle Scholar
  17. Kawase M, Vaughan DA (2008) The present status and future prospects of the NIAS Genebank project in Japan. Capacity building for risk management system on genetic resources, APEC-ATCWG Workshop, pp 135–143Google Scholar
  18. Machida-Hirano R, Ishii H, Oo TH, Gilani SA, Kikuchi A, Watanabe K (2011) Propagation management methods have altered the genetic variability of two traditional mango varieties in Myanmar, as revealed by SSR. Plant Genet Resour 9(3):404–410CrossRefGoogle Scholar
  19. Machida-Hirano R, Cortés Cruz M, Shirata K, Castillo Martínez CR, Niino T, De La Torre Sánchez JF, KAWASE M, Fernández Rivera S, Watanabe K (2014) Diversity assessment and development of sustainable use of Mexican genetic resources: prospects of a SATREPS project. Trop Agric Dev 58(1):37–41Google Scholar
  20. Machida-Hirano R, Cortés Cruz M, Amaro González BA, Cadena Íñiguez J, Shirata K, Watanabe K (2015) Isolation and Characterization of Novel Microsatellite Markers in Chayote [Sechium edule (Jacq.) Sw.]. Amer J Plant Sci 6:2033–2041.  https://doi.org/10.4236/ajps.2015.613203 CrossRefGoogle Scholar
  21. MOFA (2013) JOINT STATEMENT, Shared vision and actions for the strengthening of the Japan-Mexico global strategic partnership for the 21st century. Ministry of Foreign Affairs, Government of Japan. [Online] http://www.mofa.go.jp/files/000003580.pdf. Browsed on Jan 15, 2017
  22. Morton JF (1987) Mexican husk tomato. Fruits of Warm climates. Creative Resource Systems, Winterville, pp 434–437Google Scholar
  23. Myers N et al (2000) Biodiversity hotspots for conservation priorities. Nature 403:853–858CrossRefGoogle Scholar
  24. National Research Council (1984) Amaranth: modern prospects for an ancient crop. Report of an Ad Hoc panel of the advisory committee on technology innovation board on science and technology for international development, Office of International Affairs, National Research Council. National Academy Press, Washington, DC, 81 pGoogle Scholar
  25. Rudebjer P, Watanabe K, Sebastian L (eds) (2010) Reviewing plant genetic resources education in east and Southeast Asia. In: Proceedings of an international workshop, University of Tsukuba, Japan, 17–19 November 2009. Bioversity International, Serdang, Malaysia and University of Tsukuba, Japan. ISBN: 978-92-9043-878-6Google Scholar
  26. SAGARPA (Secretaría de Agricultura, Ganadería, Desarollo Rural, Pesca y Alimentación) (2012) Sexto Informe de Labores. Secretaría de Agricultura,Ganadería, Desarollo Rural, Pesca y Alimentación. (Secretariat of Agriculture, Livestock, Rural Development, Fisheries and Food (2012) Sixth Report of Activities. Mexico, D.F. p 224. (in Spanish) [Online]. http://www.sagarpa.gob.mx/saladeprensa/Informe/documentos/sexto/6_informe_SAGARPA.pdf. Browsed on Jan 15, 2017
  27. Ten Kate K, Laird SA (2000) The commercial use of biodiversity. Earthscan Publications, Ltd, London, 398 pGoogle Scholar
  28. Watanabe K (2012) Challenges for conservation and utilization of plant genetic resources, pp 99–107. NIAS-FAO International Symposium. Plant genetic resources for food and agriculture in Asia and Pacific: impacts and future directions. NIAS and FAO, FAO RO RAP Bangkok, RAP Publication 2012/1, 118 p. ISBN 978-92-5-107124-3Google Scholar
  29. Watanabe KN (2015) Potato genetics, genomics and applications. Breed Sci 65(1):53–68CrossRefPubMedPubMedCentralGoogle Scholar
  30. Watanabe KN, Iwanaga (1999) Plant genetic resources and its global contribution. Plant Biotechnol 16:7–13CrossRefGoogle Scholar
  31. Watanabe KN, Teh GH (2011) Wanted: bioprospecting consultants. Nat Biotechnol 27:873–875CrossRefGoogle Scholar
  32. Whiley A et al (2002) Avocado: botany, production and uses. C.A.B. International, Wallingford, 500 p, 978-0851993577Google Scholar
  33. Whitson M, Manos PS (2005) Untangling Physalis (Solanaceae) from the physaloids: a two-gene phylogeny of the Physalinae. Syst Bot 30(1):216–230CrossRefGoogle Scholar
  34. Yamamoto S, Wunna RT, Valle Arizaga M, Fukui K, Cruz Gutierrez EJ, Castillo Martinez CR, Watanabe K, Niino T (2015) The aluminum Cryo-plate increases efficiency of cryopreservation protocols for potato shoot tips. Am J Potato Res 92:250–257CrossRefGoogle Scholar
  35. Young A (1994) The chocolate tree: a natural history of cacao. Smithsonian Institute Press, New York, 200 p, 978-1560983576Google Scholar
  36. Zamora Tavares P et al (2015) Diversity and genetic structure of the husk tomato (Physalis philadelphica Lam.) in Western Mexico. Genet Resour Crop Evol 62:141–153.  https://doi.org/10.1007/s10722-014-0163-9 CrossRefGoogle Scholar

Copyright information

© Springer Nature Singapore Pte Ltd. 2018

Authors and Affiliations

  1. 1.Gene Research Center & Faculty of Life and Environmental SciencesUniversity of TsukubaTsukubaJapan

Personalised recommendations