TY - JOUR
T1 - A pipeline strategy for grain crop domestication
AU - DeHaan, Lee R.
AU - Van Tassel, David L.
AU - Anderson, James A.
AU - Asselin, Sean R.
AU - Barnes, Richard
AU - Baute, Gregory J.
AU - Cattani, Douglas J.
AU - Culman, Steve W.
AU - Dorn, Kevin M.
AU - Hulke, Brent S.
AU - Kantar, Michael
AU - Larson, Steve
AU - David Marks, M.
AU - Miller, Allison J.
AU - Poland, Jesse
AU - Ravetta, Damian A.
AU - Rude, Emily
AU - Ryan, Matthew R.
AU - Wyse, Don
AU - Zhang, Xiaofei
N1 - Generated from Scopus record by KAUST IRTS on 2022-09-13
PY - 2016/5/1
Y1 - 2016/5/1
N2 - In the interest of diversifying the global food system, improving human nutrition, and making agriculture more sustainable, there have been many proposals to domesticate wild plants or complete the domestication of semidomesticated orphan crops. However, very few new crops have recently been fully domesticated. Many wild plants have traits limiting their production or consumption that could be costly and slow to change. Others may have fortuitous preadaptations that make them easier to develop or feasible as high-value, albeit low-yielding, crops. To increase success in contemporary domestication of new crops, we propose a pipeline approach, with attrition expected as species advance through the pipeline. We list criteria for ranking domestication candidates to help enrich the starting pool with more preadapted, promising species. We also discuss strategies for prioritizing initial research efforts once the candidates have been selected: developing higher value products and services from the crop, increasing yield potential, and focusing on overcoming undesirable traits. Finally, we present new-crop case studies that demonstrate that wild species’ limitations and potential (in agronomic culture, shattering, seed size, harvest, cleaning, hybridization, etc.) are often only revealed during the early phases of domestication. When nearly insurmountable barriers were reached in some species, they have been (at least temporarily) eliminated from the pipeline. Conversely, a few species have moved quickly through the pipeline as hurdles, such as low seed weight or low seed number per head, were rapidly overcome, leading to increased confidence, farmer collaboration, and program expansion.
AB - In the interest of diversifying the global food system, improving human nutrition, and making agriculture more sustainable, there have been many proposals to domesticate wild plants or complete the domestication of semidomesticated orphan crops. However, very few new crops have recently been fully domesticated. Many wild plants have traits limiting their production or consumption that could be costly and slow to change. Others may have fortuitous preadaptations that make them easier to develop or feasible as high-value, albeit low-yielding, crops. To increase success in contemporary domestication of new crops, we propose a pipeline approach, with attrition expected as species advance through the pipeline. We list criteria for ranking domestication candidates to help enrich the starting pool with more preadapted, promising species. We also discuss strategies for prioritizing initial research efforts once the candidates have been selected: developing higher value products and services from the crop, increasing yield potential, and focusing on overcoming undesirable traits. Finally, we present new-crop case studies that demonstrate that wild species’ limitations and potential (in agronomic culture, shattering, seed size, harvest, cleaning, hybridization, etc.) are often only revealed during the early phases of domestication. When nearly insurmountable barriers were reached in some species, they have been (at least temporarily) eliminated from the pipeline. Conversely, a few species have moved quickly through the pipeline as hurdles, such as low seed weight or low seed number per head, were rapidly overcome, leading to increased confidence, farmer collaboration, and program expansion.
UR - http://doi.wiley.com/10.2135/cropsci2015.06.0356
UR - http://www.scopus.com/inward/record.url?scp=84964817631&partnerID=8YFLogxK
U2 - 10.2135/cropsci2015.06.0356
DO - 10.2135/cropsci2015.06.0356
M3 - Article
SN - 1435-0653
VL - 56
SP - 917
EP - 930
JO - Crop Science
JF - Crop Science
IS - 3
ER -