Innovations through crop switching happen on the diverse margins of US agriculture

Article

Kling, Matthew M.; Brittain, Christopher T.; Galford, Gillian L.; Waring, Timothy M.; Hebert-Dufresne, Laurent; Dube, Matthew P.; Sabzian, Hossein; Gotelli, Nicholas J.; McGill, Brian J.; Niles, Meredith T.

University of Vermont; University of Vermont; University of Vermont; University of Vermont; University of Maine System; University of Maine Orono; University of Maine System; University of Maine Orono; University of Vermont; University of Vermont; University of Maine System; University of Maine Augusta; University of Maine System; University of Maine Orono

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

0027-14381

10.1073/pnas.2402195121

2024-10-15

Crop switching, in which farmers grow a crop that is novel to a given field, can help agricultural systems adapt to changing environmental, cultural, and market forces. Yet while regional crop production trends receive significant attention, relatively little is known about the local-scale crop switching that underlies these macrotrends. We characterized local crop-switching patterns across the United States using the US Department of Agriculture (USDA) Cropland Data Layer, an annual time series of high resolution (30 m pixel size) remote-sensed cropland data from 2008 to 2022. We found that at multiple spatial scales, crop switching was most common in sparsely cultivated landscapes and in landscapes with high crop diversity, whereas it was low in homogeneous, highly agricultural areas such as the Midwestern corn belt, suggesting a number of potential social and economic mechanisms influencing farmers' crop choices. Crop-switching rates were high overall, occurring on more than 6% of all US cropland in the average year. Applying a framework that classified crop switches based on their temporal novelty (crop introduction versus discontinuation), spatial novelty (locally divergent versus convergent switching), and categorical novelty (transformative versus incremental switching), we found distinct spatial patterns for these three novelty dimensions, indicating a dynamic and multifaceted set of cropping changes across US farms. Collectively, these results suggest that innovation through crop switching is playing out very differently in various parts of the country, with potentially significant implications for the resilience of agricultural systems to changes in climate and other systemic trends.