Agriculture Reference
In-Depth Information
2. Wood, D.; Lenne, J.M. The conservation of agrobiodiversity on-farm: Questioning
the emerging paradigm. Biodivers. Conserv. 1997, 6, 109-129.
3. Lammerts van Bueren, E.T. Ecological concepts in organic farming and their conse-
quences for an organic crop ideotype. Neth. J. Agric. Sci. 2002, 50, 1-26.
4. Colley, M.R.; Navazio, J.P. New F1 and open-pollinated spinach varieties for or-
ganic systems: A farmer, seed company, and non-profit model of participatory breed-
ing. In Abstract Book of Eucarpia Symposium Plant Breeding for Organic and Sus-
tainable, Low-Input Agriculture: Dealing with Genotype-Environment Interactions,
7-9 November 2007, Wageningen, The Netherlands; Lammerts van Bueren, E.T.,
Østergård, H., Goldringer, I., Scholten, O., Eds.; Wageningen University: Wagenin-
gen, The Netherlands; p. 69.
5. Ceccarelli, S.; Grando, S. Decentralized participatory plant breeding: An example of
demand driven research. Euphytica 2007, 155, 349-360.
6. Chable, V.; Conseil, M.; Serpolay, E.; Le Lagadec, F. Organic varieties for cau-
liflowers and cabbages in Brittany: From genetic resources to participatory plant
breeding. Euphytica 2008, 164, 521-529.
7. Murphy, K.; Lammer, D.; Lyon, S.; Carter, B.; Jones, S.S. Breeding for organic
agriculture and low-input farming systems: An evolutionary-participative breeding
method for inbred cereal grains. Renewable Agric. Food Syst. 2004, 20, 48-55.
8. Newton, A.C.; Akar, T.; Baresel, J.P.; Bebeli, P.J.; Bettencourt, E.; Bladenopoulos,
K.V.; Czembor, J.H.; Fasoula, D.A.; Katsiotis, A.; Koutis, K.; Koutsika-Sotiriou,
M.; et al. Cereal landraces for sustainable agriculture: A review. Agron. Sustain.
Dev. 2010, 30, 237-269.
9. Philipps, S.L.; Wolfe, M.S. Evolutionary plant breeding for low-input systems. J.
Agric. Sci. 2005, 143, 245-254.
10. Dawson, J.C.; Serpolay, E.; Giuliano, S.; Schermann, N.; Galic, N.; Osman, A.;
Pino, S.; Goldringer, I. Phenotypic diversity and evolution of farmer varieties of
bread wheat in organic agricultural systems in Europe. Sustainability, in press.
11. Kumar, S.; Bisht, I.S.; Bhat, K.V. Population structure of rice (Oryza sativa) landra-
ces under farmer management. Ann. Appl. Biol. 2010, 156, 137-146.
12. Pressoir, G.; Berthaud, J. Population structure and strong divergent selection shape
phenotypic diversification in maize landraces. Heredity 2004, 92, 95-101.
13. Vaz Patto, M.C.; Moreira, P.M.; Almeida, N.; Satovic, N.; Pego, S. Genetic diversity
evolution through participatory maize breeding in Portugal. Euphytica 2008, 161,
283-291.
14. Goldringer, I.; Prouin, C.; Rousset, M.; Galic, N.; Bonnin, I. Rapid differentiation
of experimental populations of wheat for heading time in response to local climatic
conditions. Ann. Bot. 2006, 98, 805-817.
15. Chable, V.; Goldringer, I.; Dawson, J.; Bocci, R.; Lammerts van Bueren, E.T.; Ser-
polay, E.; Gonzalez, J.M.; Valero, T.; Levillain, T.; Van der Burg, J.W.; et al. Farm
seed opportunities: A project to promote landrace use and renew biodiversity. In
Bioversity Technical Bulletin, No. 15; Negri, V., Maxted, N., Vetelainen, M., Eds.;
Bioversity International: Rome, Italy, 2009, pp. 266-274.
16. R Development Core Team. R: A language and environment for statistical com-
puting. R Foundation for Statistical Computing: Vienna, Austria; Available online:
http://www.R-project.org/; 2011 (accessed on 2 September 2011).
