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Autori principali: Wan, Nian-Feng, Shen, Siyuan, Li, Muyao, Chen, Yan, Pan, Fei-Yi, Chen, Xin, Woodcock, Ben A, Hu, Yue-Qing, Hector, Andy, Loreau, Michel, Schmid, Bernhard, Eisenhauer, Nico, Crowder, David W, Weiner, Jacob, Martínez-Núñez, Carlos, Tscharntke, Teja, Li, Qiming, Qiu, Shiyun, Sun, Shengming, Yao, Yingjuan, Su, Qi, Zhou, Jun-Xiang, Zhu, Yu-Tong, Jiang, Tong-Li, Liu, Jie, Tang, Jian-Jun
Natura: Artículo científico
Lingua:en
Pubblicazione: Current biology : CB 2026
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41980779/
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author Wan, Nian-Feng
Shen, Siyuan
Li, Muyao
Chen, Yan
Pan, Fei-Yi
Chen, Xin
Woodcock, Ben A
Hu, Yue-Qing
Hector, Andy
Loreau, Michel
Schmid, Bernhard
Eisenhauer, Nico
Crowder, David W
Weiner, Jacob
Martínez-Núñez, Carlos
Tscharntke, Teja
Li, Qiming
Qiu, Shiyun
Sun, Shengming
Yao, Yingjuan
Su, Qi
Zhou, Jun-Xiang
Zhu, Yu-Tong
Jiang, Tong-Li
Liu, Jie
Tang, Jian-Jun
author_facet Wan, Nian-Feng
Shen, Siyuan
Li, Muyao
Chen, Yan
Pan, Fei-Yi
Chen, Xin
Woodcock, Ben A
Hu, Yue-Qing
Hector, Andy
Loreau, Michel
Schmid, Bernhard
Eisenhauer, Nico
Crowder, David W
Weiner, Jacob
Martínez-Núñez, Carlos
Tscharntke, Teja
Li, Qiming
Qiu, Shiyun
Sun, Shengming
Yao, Yingjuan
Su, Qi
Zhou, Jun-Xiang
Zhu, Yu-Tong
Jiang, Tong-Li
Liu, Jie
Tang, Jian-Jun
Wan, Nian-Feng
Shen, Siyuan
Li, Muyao
Chen, Yan
Pan, Fei-Yi
Chen, Xin
Woodcock, Ben A
Hu, Yue-Qing
Hector, Andy
Loreau, Michel
Schmid, Bernhard
Eisenhauer, Nico
Crowder, David W
Weiner, Jacob
Martínez-Núñez, Carlos
Tscharntke, Teja
Li, Qiming
Qiu, Shiyun
Sun, Shengming
Yao, Yingjuan
Su, Qi
Zhou, Jun-Xiang
Zhu, Yu-Tong
Jiang, Tong-Li
Liu, Jie
Tang, Jian-Jun
collection PubMed - marine biology
contents Trophic cascades drive sustainability in the agricultural heritage rice-fish coculture system. Wan, Nian-Feng Shen, Siyuan Li, Muyao Chen, Yan Pan, Fei-Yi Chen, Xin Woodcock, Ben A Hu, Yue-Qing Hector, Andy Loreau, Michel Schmid, Bernhard Eisenhauer, Nico Crowder, David W Weiner, Jacob Martínez-Núñez, Carlos Tscharntke, Teja Li, Qiming Qiu, Shiyun Sun, Shengming Yao, Yingjuan Su, Qi Zhou, Jun-Xiang Zhu, Yu-Tong Jiang, Tong-Li Liu, Jie Tang, Jian-Jun Oryza Animals Food Chain Fishes Agriculture Biodiversity Coculture Techniques Pest Control, Biological Herbivory Biodiversity-mediated trophic cascades are well established for plant diversity, but the role of biodiversity in the millennia-old Asian rice-fish agroecosystems has not been synthesized. We show in a meta-analysis of 113 studies worldwide that rice-fish coculture increases yields by 12.5%, while enhancing the abundance of invertebrate natural enemies (predators/parasitoids) by 99.3% and suppressing pest invertebrate herbivores (24.1%), disease (38.8%), and weeds (45.7%), compared with rice monoculture. These effects persist across organic and non-organic systems, as well as temperate and tropical zones. Biological pest control played a dominant role in enhancing crop production, with enemy-driven top-down effects suppressing herbivore populations. Four-year field experiments confirmed these patterns, demonstrating biological control and top-down effects. Behavioral assays further show fish preferentially target herbivores (e.g., planthoppers) while sparing predatory spiders, reinforcing trophic cascades. Our findings validate rice-fish coculture as a highly productive, sustainable agricultural system that enhances biodiversity, crop yields, and provides significant fish harvests for animal protein and additional farmer income. This approach aligns with the Food and Agriculture Organization (FAO) goals by harnessing biodiversity for ecological intensification and natural pest regulation, offering viable solutions for global food security and nutritional challenges.
format Artículo científico
id pubmed_41980779
institution PubMed
language en
publishDate 2026
publisher Current biology : CB
record_format pubmed
spellingShingle Trophic cascades drive sustainability in the agricultural heritage rice-fish coculture system.
Wan, Nian-Feng
Shen, Siyuan
Li, Muyao
Chen, Yan
Pan, Fei-Yi
Chen, Xin
Woodcock, Ben A
Hu, Yue-Qing
Hector, Andy
Loreau, Michel
Schmid, Bernhard
Eisenhauer, Nico
Crowder, David W
Weiner, Jacob
Martínez-Núñez, Carlos
Tscharntke, Teja
Li, Qiming
Qiu, Shiyun
Sun, Shengming
Yao, Yingjuan
Su, Qi
Zhou, Jun-Xiang
Zhu, Yu-Tong
Jiang, Tong-Li
Liu, Jie
Tang, Jian-Jun
Oryza
Animals
Food Chain
Fishes
Agriculture
Biodiversity
Coculture Techniques
Pest Control, Biological
Herbivory
Trophic cascades drive sustainability in the agricultural heritage rice-fish coculture system. Wan, Nian-Feng Shen, Siyuan Li, Muyao Chen, Yan Pan, Fei-Yi Chen, Xin Woodcock, Ben A Hu, Yue-Qing Hector, Andy Loreau, Michel Schmid, Bernhard Eisenhauer, Nico Crowder, David W Weiner, Jacob Martínez-Núñez, Carlos Tscharntke, Teja Li, Qiming Qiu, Shiyun Sun, Shengming Yao, Yingjuan Su, Qi Zhou, Jun-Xiang Zhu, Yu-Tong Jiang, Tong-Li Liu, Jie Tang, Jian-Jun Oryza Animals Food Chain Fishes Agriculture Biodiversity Coculture Techniques Pest Control, Biological Herbivory Biodiversity-mediated trophic cascades are well established for plant diversity, but the role of biodiversity in the millennia-old Asian rice-fish agroecosystems has not been synthesized. We show in a meta-analysis of 113 studies worldwide that rice-fish coculture increases yields by 12.5%, while enhancing the abundance of invertebrate natural enemies (predators/parasitoids) by 99.3% and suppressing pest invertebrate herbivores (24.1%), disease (38.8%), and weeds (45.7%), compared with rice monoculture. These effects persist across organic and non-organic systems, as well as temperate and tropical zones. Biological pest control played a dominant role in enhancing crop production, with enemy-driven top-down effects suppressing herbivore populations. Four-year field experiments confirmed these patterns, demonstrating biological control and top-down effects. Behavioral assays further show fish preferentially target herbivores (e.g., planthoppers) while sparing predatory spiders, reinforcing trophic cascades. Our findings validate rice-fish coculture as a highly productive, sustainable agricultural system that enhances biodiversity, crop yields, and provides significant fish harvests for animal protein and additional farmer income. This approach aligns with the Food and Agriculture Organization (FAO) goals by harnessing biodiversity for ecological intensification and natural pest regulation, offering viable solutions for global food security and nutritional challenges.
title Trophic cascades drive sustainability in the agricultural heritage rice-fish coculture system.
topic Oryza
Animals
Food Chain
Fishes
Agriculture
Biodiversity
Coculture Techniques
Pest Control, Biological
Herbivory
url https://pubmed.ncbi.nlm.nih.gov/41980779/