Zijun Ji scite author profile

Zijun Ji

5Publications

12Citation Statements Received

127Citation Statements Given

How they've been cited

How they cite others

197

126

Affiliations

Zhejiang University, Guilin University of Electronic Technology

Publications

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Using aquatic animals as partners to increase yield and maintain soil nitrogen in the paddy ecosystems

Guo

Zhao

et al. 2022

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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 13C and 15N showed that 16.0–50.2% of aquatic animal foods were from naturally occurring organisms in the rice fields. Stable-isotope-labeling (13C) in the field experiments indicated that the organic matter decomposition rate was greater with RA than with RM. Isotope 15N 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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Coupling Rice with Fish for Sustainable Yields and Soil Fertility in China

Guo

Zhao

et al. 2020

Rice Science

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Effects of surface treatment on electrochemical properties of AB3.8-type hydrogen storage alloy in alkaline electrolyte

Wang

Deng

et al. 2015

Russ J Electrochem

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The Role of Partner Species in the Crop Cocultures: A Global Synthetic Analysis

Ren

et al. 2023

Preprint

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Coculturing rice with aquatic animals promotes ecological intensification of paddy ecosystem

Zhao

Zhang

et al. 2023

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Species coculture can increase agro-biodiversity and therefore constitutes an ecological intensification measure for agriculture. Rice-aquatic animal coculture, one type of species coculture, has been practiced and researched widely. Here, we review recent studies and present results of a quantitative analysis of literature on rice–aquatic animal coculture systems. We address three questions: (i) can rice yield and soil fertility be maintained or increased with less chemical input through rice-aquatic animal coculture? (ii) how do aquatic animals benefit the paddy ecosystem? (iii) how can coculture be implemented for ecological intensification? Meta-analysis based on published papers showed that rice-aquatic animal cocultures increased rice yield, soil organic carbon, and total nitrogen and decreased insect pests and weeds compared to rice monocultures. Studies also showed that rice-aquatic animal cocultures reduced pesticide and fertilizer application compared to rice monocultures. Rice plants provide a beneficial environment for aquatic animals, leading to high animal activities in the field. Aquatic animals, in turn, help remove rice pests and act as ecological engineers that affect soil conditions, which favor the growth of rice plants. Aquatic animals promote nutrient cycling and the complementary use of nutrients between rice and aquatic animals, which enhances nutrient-use efficiency in the coculture. To generate beneficial outcomes, how to develop compatible partnerships between rice and aquatic animals, and compatible culturing strategies for coculture systems are the key points. Investigating which traits of aquatic animals and rice varieties could best match to create productive and sustainable coculture systems could be one of the future focuses.

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Zijun Ji

Using aquatic animals as partners to increase yield and maintain soil nitrogen in the paddy ecosystems

Coupling Rice with Fish for Sustainable Yields and Soil Fertility in China

Effects of surface treatment on electrochemical properties of AB3.8-type hydrogen storage alloy in alkaline electrolyte

The Role of Partner Species in the Crop Cocultures: A Global Synthetic Analysis

Coculturing rice with aquatic animals promotes ecological intensification of paddy ecosystem

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