Abstract
Stabilizing agricultural production is fundamental to food security. At the national level, increasing the effective diversity of cultivated crops has been found to increase temporal production stability, i.e., the year-to-year stability of total caloric production of all crops combined. Here, we specifically investigated these effects at the regional level for the European Union and tested the effect of crop diversity in relation to agricultural inputs, soil properties, climate instability, and time on caloric, protein, and fat stability, as we hypothesized that the effect of diversity is context dependent. We further investigated these relationships for specific countries. We found that greater crop diversity was consistently associated with an increase in production stability, particularly in regions with large areas equipped for irrigation and low soil type diversity. For instance, in Spain and Italy, crop diversity showed the strongest positive effect among all predictors, while on the European level, the stabilizing effect of nitrogen use was substantially higher. In Germany, the crop diversity-stability relationship was weak, suggesting that crops react similarly to climatic, economic, and political factors or are grown in the same periods. With this study, we substantiate previous findings that crop diversity stabilizes agricultural caloric production and extend these with regard to protein and fat. The results elucidate the key drivers that enhance production stability for different European countries and regions, which is of key importance for a comparably productive agricultural region like Europe.
Highlights
Increasing the temporal stability of agricultural production is key to foster the resilience and reliability of agricultural systems and is fundamental to food security (Knapp and van der Heijden 2018), in particular in the light of climate change and rising demands for food (Challinor et al 2014; Valin et al 2014)
In regions with large areas equipped for irrigation, crop diversity was positively and significantly associated with caloric stability (p < 0.05; Fig. 3; Table S2)
Our results show that crop diversity is in general positively associated with production stability at the regional level in the European Union, in regions with large areas equipped for irrigation and with low soil type diversity
Summary
Increasing the temporal stability of agricultural production is key to foster the resilience and reliability of agricultural systems and is fundamental to food security (Knapp and van der Heijden 2018), in particular in the light of climate change and rising demands for food (Challinor et al 2014; Valin et al 2014). While for a long time agricultural assessments have focused on agricultural production and productivity, understanding the temporal stability of agricultural production and its underlying drivers has only recently received more attention (Gaudin et al 2015; Ray et al 2015; KC et al 2016; Raseduzzaman and Jensen 2017; Knapp and van der Heijden 2018; Mehrabi and Ramankutty 2019; Renard and Tilman 2019). It has been found that a greater effective diversity of cultivated crops based on the Shannon index increases temporal production stability, i.e., the year-to-year stability of the total caloric production of all crops combined (Renard and Tilman 2019; Egli et al 2020)
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