Global-scale prevalence of low nutrient use efficiency across major crops

Ji Liu; Hai Wang; Josep Penuelas; Juan Mou; Manuel Delgado-Baquerizo; Jordi Sardans; Fernando Coello; Zhi Quan; Tianyi Qiu; Yanyan Li; Yahui Guo; Ziying Hu; Yanrui Ying; Jingyi Lv; Yufeng Zhang; Wenfeng Tan; Guiyao Zhou; Lu Jun Li; Linchuan Fang

doi:10.1038/s41467-025-66019-w

Global-scale prevalence of low nutrient use efficiency across major crops

Ji Liu, Hai Wang, Josep Penuelas, Juan Mou, Manuel Delgado-Baquerizo, Jordi Sardans, Fernando Coello, Zhi Quan, Tianyi Qiu, Yanyan Li, Yahui Guo, Ziying Hu, Yanrui Ying, Jingyi Lv, Yufeng Zhang, Wenfeng Tan, Guiyao Zhou, Lu Jun Li, Linchuan Fang

Research output: Contribution to journal › Article › peer-review

Abstract

Enhancing nitrogen (N) and phosphorus (P) use efficiency (NUE and PUE) is essential for advancing sustainable agriculture and reducing dependency on non-renewable fertilizers. However, the long-term dynamics of NUE and PUE across major crops remain poorly understood at a global scale. Here, we compile a comprehensive global database encompassing 3360 observations across 205 countries to analyze trends in NUE and PUE for major crops from 1961 to 2018. Today, PUE and NUE are still suboptimal, particularly in developing regions, emphasizing the need for context-specific strategies to improve nutrient use efficiency. Global mapping shows that NUE and PUE are highly context-dependent, with variations observed by crop type and region. For instance, rice achieves optimal NUE and PUE in tropical zones, while wheat performs best in temperate climates. Notably, maize continues to exhibit significant nutrient inefficiencies, especially in China and the United States, with considerable N and P surpluses. Taken together, this global analysis provides spatially explicit insights to guide region-specific efforts toward improving nutrient use efficiency, supporting sustainable agricultural practices and reducing global fertilizer dependence.

Original language	English
Article number	11036
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-66019-w
Publication status	Published - Dec 2025
Externally published	Yes

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Publisher Copyright:
© The Author(s) 2025.

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Liu, J., Wang, H., Penuelas, J., Mou, J., Delgado-Baquerizo, M., Sardans, J., Coello, F., Quan, Z., Qiu, T., Li, Y., Guo, Y., Hu, Z., Ying, Y., Lv, J., Zhang, Y., Tan, W., Zhou, G., Li, L. J., & Fang, L. (2025). Global-scale prevalence of low nutrient use efficiency across major crops. Nature Communications, 16(1), Article 11036. https://doi.org/10.1038/s41467-025-66019-w

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abstract = "Enhancing nitrogen (N) and phosphorus (P) use efficiency (NUE and PUE) is essential for advancing sustainable agriculture and reducing dependency on non-renewable fertilizers. However, the long-term dynamics of NUE and PUE across major crops remain poorly understood at a global scale. Here, we compile a comprehensive global database encompassing 3360 observations across 205 countries to analyze trends in NUE and PUE for major crops from 1961 to 2018. Today, PUE and NUE are still suboptimal, particularly in developing regions, emphasizing the need for context-specific strategies to improve nutrient use efficiency. Global mapping shows that NUE and PUE are highly context-dependent, with variations observed by crop type and region. For instance, rice achieves optimal NUE and PUE in tropical zones, while wheat performs best in temperate climates. Notably, maize continues to exhibit significant nutrient inefficiencies, especially in China and the United States, with considerable N and P surpluses. Taken together, this global analysis provides spatially explicit insights to guide region-specific efforts toward improving nutrient use efficiency, supporting sustainable agricultural practices and reducing global fertilizer dependence.",

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AU - Wang, Hai

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AU - Sardans, Jordi

AU - Coello, Fernando

AU - Quan, Zhi

AU - Qiu, Tianyi

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AU - Guo, Yahui

AU - Hu, Ziying

AU - Ying, Yanrui

AU - Lv, Jingyi

AU - Zhang, Yufeng

AU - Tan, Wenfeng

AU - Zhou, Guiyao

AU - Li, Lu Jun

AU - Fang, Linchuan

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N2 - Enhancing nitrogen (N) and phosphorus (P) use efficiency (NUE and PUE) is essential for advancing sustainable agriculture and reducing dependency on non-renewable fertilizers. However, the long-term dynamics of NUE and PUE across major crops remain poorly understood at a global scale. Here, we compile a comprehensive global database encompassing 3360 observations across 205 countries to analyze trends in NUE and PUE for major crops from 1961 to 2018. Today, PUE and NUE are still suboptimal, particularly in developing regions, emphasizing the need for context-specific strategies to improve nutrient use efficiency. Global mapping shows that NUE and PUE are highly context-dependent, with variations observed by crop type and region. For instance, rice achieves optimal NUE and PUE in tropical zones, while wheat performs best in temperate climates. Notably, maize continues to exhibit significant nutrient inefficiencies, especially in China and the United States, with considerable N and P surpluses. Taken together, this global analysis provides spatially explicit insights to guide region-specific efforts toward improving nutrient use efficiency, supporting sustainable agricultural practices and reducing global fertilizer dependence.

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Global-scale prevalence of low nutrient use efficiency across major crops

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