Ecological intensification measures to improve productivity and decrease nitrogen surplus in wheat-maize/watermelon intercropping system

IF 6.5 3区环境科学与生态学 Q1 ECOLOGY

International Journal of Sustainable Development and World Ecology Pub Date : 2022-09-16 DOI:10.1080/13504509.2022.2124552

Chen Yanjie, Yang Xiaotong, Zhang Yi, Xu Zhan, P. Cross, Zhang Chaochun

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引用次数: 0

Abstract

ABSTRACT Intercropping is a promising ecological intensification practice thanks to its improved crop yield and nutrient use efficiency compared with mono-cropping. However, there are constraints for achieving higher yields and efficiencies, and little is known about how to address such constraints. We conducted two experiments in a wheat-maize/watermelon intercropping study and examined the impacts of pollination services and cover crop addition on productivity and nitrogen (N) surplus, respectively. During the watermelon growing season, we investigated pollination services using three treatments (full cover, semi-cover, no cover) and evaluated fruit set rate, yield and pollination service index. During the maize growing season, we evaluated the impact of cover crop chicory (Cichorium intybus L.) on maize growth and soil residual inorganic N using three treatments (no cover crop, one row and two rows cover crop). Compared with the full cover treatment, semi-cover and no cover treatments increased the fruit set rate of watermelon by 42.95% and 73.85%, and fruit yield by 10.84 Mg·ha−1 and 11.48 Mg·ha−1, respectively. Pollination services accounted for 57.5% of relative watermelon yield. Compared with the control (no cover crops), planting cover crops increased yield and N uptake of the maize while reducing the apparent N surplus by 25.9–26.0 kg·ha−1. After the maize was harvested, inorganic N was largely distributed below the 60 cm soil depth. Providing pollination services and planting cover crops can be promising ecological intensification measures that improve productivity and decrease the N surplus of the intercropping system.

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小麦-玉米/西瓜间作系统提高生产力和减少氮肥过剩的生态集约化措施

与单作相比，间作可提高作物产量和养分利用效率，是一种很有前途的生态集约化做法。然而，实现更高的产量和效率存在限制，而且人们对如何解决这些限制知之甚少。在小麦-玉米/西瓜间作试验中，研究了授粉服务和覆盖作物添加对生产力和氮盈余的影响。在西瓜生长季节，采用全覆盖、半覆盖和无覆盖3种处理，对西瓜的授粉服务进行了调查，并对坐果率、产量和授粉服务指数进行了评价。在玉米生长季节，采用不覆盖、单行和双行覆盖3种处理，研究了覆盖作物菊苣对玉米生长和土壤无机氮残留量的影响。与全覆盖处理相比，半覆盖和无覆盖处理的西瓜坐果率分别提高了42.95%和73.85%，果实产量分别提高了10.84 Mg·ha−1和11.48 Mg·ha−1。授粉服务占西瓜相对产量的57.5%。与对照(不种植覆盖作物)相比，种植覆盖作物提高了玉米产量和氮吸收，减少了25.9 ~ 26.0 kg·ha−1的表观氮过剩。玉米收获后，无机氮主要分布在60 cm以下土层。提供传粉服务和种植覆盖作物是提高间作系统生产力和减少氮素过剩的有希望的生态集约化措施。

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来源期刊

International Journal of Sustainable Development and World Ecology 环境科学-生态学

CiteScore

11.10

自引率

3.60%

发文量

审稿时长

18-36 weeks

期刊介绍： The International Journal of Sustainable Development and World Ecology is now over fifteen years old and has proved to be an exciting forum for understanding and advancing our knowledge and implementation of sustainable development. Sustainable development is now of primary importance as the key to future use and management of finite world resources. It recognises the need for development opportunities while maintaining a balance between these and the environment. As stated by the UN Bruntland Commission in 1987, sustainable development should "meet the needs of the present generation without compromising the ability of future generations to meet their own needs."