Add to ORKGQuantitative understanding of factors driving yield increases of major food crops is essential for effective prioritization of research and development. Yet previous estimates had limitations in distinguishing among contributing factors such as changing climate and new agronomic and genetic technologies. Here, we distinguished the separate contribution of these factors to yield advance using an extensive database collected from the largest irrigated maize-production domain in the world located in Nebraska (United States) during the 2005-to-2018 period. We found that 48% of the yield gain was associated with a decadal climate trend, 39% with agronomic improvements, and, by difference, only 13% with improvement in genetic yield potential. The...
Predictions of crop yield under future climate change are predicated on historical yield trends1,2,3...
Increasing food demand, rapid climate warming, and the concerns about environmental impact of agricu...
In this study, we explain a half-century of crop yield growth along an 800-mile transect of the fort...
Quantitative understanding of factors driving yield increases of major food crops is essential for e...
Climate variability and trends affect global crop yields and are characterized as highly dependent o...
Yield increases in forage maize (Zea mays L.) in NW Europe over time are well documented. The drivin...
This paper addresses the question of whether there has been an increase in yield potential of maize...
Increasing crop yields in an area we recently studied has helped keep farmers competitive and helped...
We identify the agricultural inputs that drove the growth in global and regional crop yields from 19...
Gains in annual dry matter yield (DMY) from breeding achieved during the last decades are reported t...
U.S. agriculture has made impressive strides over the past 50 years in crop yield and input producti...
Competing demands from food, feed, energy, and environmental uses are placing stress on global land ...
Rising global population and climate change realities dictate that agricultural productivity must be...
Maize (Zea mays L) yields have increased as the result of new hybrids and improved agronomic pract...
Despite efforts to collect genomics and phenomics (“omics”) and environmental data, spatiotemporal a...
Predictions of crop yield under future climate change are predicated on historical yield trends1,2,3...
Increasing food demand, rapid climate warming, and the concerns about environmental impact of agricu...
In this study, we explain a half-century of crop yield growth along an 800-mile transect of the fort...
Quantitative understanding of factors driving yield increases of major food crops is essential for e...
Climate variability and trends affect global crop yields and are characterized as highly dependent o...
Yield increases in forage maize (Zea mays L.) in NW Europe over time are well documented. The drivin...
This paper addresses the question of whether there has been an increase in yield potential of maize...
Increasing crop yields in an area we recently studied has helped keep farmers competitive and helped...
We identify the agricultural inputs that drove the growth in global and regional crop yields from 19...
Gains in annual dry matter yield (DMY) from breeding achieved during the last decades are reported t...
U.S. agriculture has made impressive strides over the past 50 years in crop yield and input producti...
Competing demands from food, feed, energy, and environmental uses are placing stress on global land ...
Rising global population and climate change realities dictate that agricultural productivity must be...
Maize (Zea mays L) yields have increased as the result of new hybrids and improved agronomic pract...
Despite efforts to collect genomics and phenomics (“omics”) and environmental data, spatiotemporal a...
Predictions of crop yield under future climate change are predicated on historical yield trends1,2,3...
Increasing food demand, rapid climate warming, and the concerns about environmental impact of agricu...
In this study, we explain a half-century of crop yield growth along an 800-mile transect of the fort...