Using aquatic animals as partners to increase yield and maintain soil nitrogen in the paddy ecosystems
文献类型: 外文期刊
作者: Guo, Liang 1 ; Zhao, Lufeng 1 ; Ye, Junlong 1 ; Ji, Zijun 1 ; Tang, Jian-Jun 1 ; Bai, Keyu 2 ; Zheng, Sijun 2 ; Hu, Liangliang 1 ; Chen, Xin 1 ;
作者机构: 1.Zhejiang Univ, Coll Life Sci, Hangzhou, Peoples R China
2.Biovers Int, Maccarese, Italy
3.Yunnan Acad Agr Sci, Kunming, Yunnan, Peoples R China
关键词: paddy ecosystem; aquatic animals; nitrogen recycling; carp; crab; soft-shell turtle; Other
期刊名称:ELIFE ( 影响因子:8.713; 五年影响因子:9.393 )
ISSN: 2050-084X
年卷期: 2022 年 11 卷
页码:
收录情况: SCI
摘要: eLife digest Monoculture, where only one type of crop is grown to the exclusion of any other organism, is a pillar of modern agriculture. Yet this narrow focus disregards how complex inter-species interactions can increase crop yield and biodiversity while decreasing the need for fertilizers or pesticides. For example, many farmers across Asia introduce carps, crabs, turtles or other freshwater grazers into their rice paddies. This coculture approach yields promising results but remains poorly understood. In particular, it is unclear how these animals' behaviours and biological processes benefit the ecosystem. To examine these questions, Guo, Zhao et al. conducted three separate four-year field experiments; they compared rice plots inhabited by either carp, mitten crabs or Chinese softshell turtles with fields where these organisms were not present. With animals, the rice paddies had less weeds, better crop yields and steady levels of nitrogen (a natural fertiliser) in their soil. These ecosystems could breakdown organic matter faster, use it better and had a reduced need for added fertilizer. While animal feed was provided in the areas that were studied, carp, crabs and turtles obtained up to half their food from the field itself, eating weeds, algae and pests and therefore reducing competition for the crops. This work helps to understand the importance of species interactions, showing that diversifying monocultures may boost yields and make agriculture more sustainable. Whether species coculture can overcome the shortcomings of crop monoculture requires additional study. Here, we show how aquatic animals (i.e. carp, crabs, and softshell turtles) benefit paddy ecosystems when cocultured with rice. Three separate field experiments and three separate mesocosm experiments were conducted. Each experiment included a rice monoculture (RM) treatment and a rice-aquatic animal (RA) coculture treatment; RA included feed addition for aquatic animals. In the field experiments, rice yield was higher with RA than with RM, and RA also produced aquatic animal yields that averaged 0.52-2.57 t ha(-1). Compared to their corresponding RMs, the three RAs had significantly higher apparent nitrogen (N)-use efficiency and lower weed infestation, while soil N contents were stable over time. Dietary reconstruction analysis based on C-13 and N-15 showed that 16.0-50.2% of aquatic animal foods were from naturally occurring organisms in the rice fields. Stable-isotope-labeling (C-13) in the field experiments indicated that the organic matter decomposition rate was greater with RA than with RM. Isotope N-15 labeling in the mesocosm experiments indicated that rice used 13.0-35.1% of the aquatic animal feed-N. All these results suggest that rice-aquatic animal coculture increases food production, increases N-use efficiency, and maintains soil N content by reducing weeds and promoting decomposition and complementary N use. Our study supports the view that adding species to monocultures may enhance agroecosystem functions.
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