The microbial community, nutrient supply and crop yields differ along a potassium fertilizer gradient under wheat–maize double-cropping systems

IF 4.6 1区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY
Zeli Li, Fuli Fang, Liang Wu, Feng Gao, Mingyang Li, Benhang Li, Kaidi Wu, Xiaomin Hu, Shuo Wang, Zhanbo Wei, Qi Chen, Min Zhang, Zhiguang Liu
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引用次数: 0

Abstract

Soil microorganisms play critical roles in ecosystem function. However, the relative impact of the potassium (K) fertilizer gradient on the microbial community in wheat‒maize double-cropping systems remains unclear. In this long-term field experiment (2008-2019), we researched bacterial and fungal diversity, composition, and community assemblage in the soil along a K fertilizer gradient (in the wheat season: K0, no K fertilizer; K1, 45 kg ha−1 K2O; K2, 90 kg ha−1 K2O; K3, 135 kg ha−1 K2O; and in the maize season: K0, no K fertilizer; K1, 150 kg ha−1 K2O; K2, 300 kg ha−1 K2O; K3, 450 kg ha−1 K2O) using bacterial 16S rRNA and fungal ITS data. We observed that environmental variables (such as mean annual soil temperature (MAT) and precipitation, available K, ammonium, nitrate, and organic matter) impacted the soil bacterial and fungal communities, and their impacts varied with fertilizer treatments and crop species. Furthermore, the relative abundance of bacteria involved in soil nutrient transformation (phylum Actinobacteria and class Alphaproteobacteria) in the wheat season was significantly increased compared to the maize season, and the optimal K fertilizer dosage (K2 treatment) boosted the relative bacterial abundance of soil nutrient transformation (genus Lactobacillus) and soil denitrification (phylum Proteobacteria) bacteria in the wheat season. The abundance of the soil bacterial community promoting root growth and nutrient absorption (genus Herbaspirillum) in the maize season was improved compared to the wheat season, and the K2 treatment enhanced the bacterial abundance of soil nutrient transformation (genus MND1) and soil nitrogen cycling (genus Nitrospira) genera in the maize season. The results indicated that the bacterial and fungal communities in the double-cropping system exhibited variable sensitivities and assembly mechanisms along a K fertilizer gradient, and microhabitats explained the largest amount of the variation in crop yields, and improved wheat‒maize yields by 11.2-22.6 and 9.2-23.8% with K addition, respectively. These modes are shaped contemporaneously by the different meteorological factors and soil nutrient changes in the K fertilizer gradients.

小麦-玉米双茬种植系统下的微生物群落、养分供应和作物产量在钾肥梯度上的差异
土壤微生物在生态系统功能中发挥着至关重要的作用。然而,钾肥梯度对小麦-玉米双季作业系统中微生物群落的相对影响仍不清楚。在这项长期田间试验(2008-2019 年)中,我们沿钾肥梯度研究了土壤中细菌和真菌的多样性、组成和群落组合(在小麦生长季节:K0,不施钾肥;K1,45 千克/公顷-1 K2O;K2,90 千克/公顷-1 K2O;K3,135 千克/公顷-1 K2O:K0,不施钾肥;K1,150 千克/公顷-1 K2O;K2,300 千克/公顷-1 K2O;K3,450 千克/公顷-1 K2O)。我们观察到,环境变量(如年平均土壤温度(MAT)和降水量、可利用的钾、铵、硝酸盐和有机质)对土壤细菌和真菌群落有影响,而且它们的影响随肥料处理和作物种类的不同而变化。此外,与玉米季相比,小麦季参与土壤养分转化的细菌(放线菌门和变形菌类)的相对丰度显著增加,最佳钾肥用量(K2 处理)提高了小麦季土壤养分转化细菌(乳酸杆菌属)和土壤反硝化细菌(蛋白细菌门)的相对丰度。与小麦季相比,玉米季促进根系生长和养分吸收的土壤细菌群落(Herbaspirillum 属)的丰度有所提高,K2 处理提高了玉米季土壤养分转化菌属(MND1 属)和土壤氮循环菌属(Nitrospira 属)的细菌丰度。结果表明,沿钾肥梯度,双季稻系统中的细菌和真菌群落表现出不同的敏感性和组装机制,微生境解释了作物产量的最大变化量,添加钾肥后,小麦-玉米产量分别提高了11.2-22.6%和9.2-23.8%。这些模式是由钾肥梯度中不同的气象因素和土壤养分变化同时形成的。
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来源期刊
Journal of Integrative Agriculture
Journal of Integrative Agriculture AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
7.90
自引率
4.20%
发文量
4817
审稿时长
3-6 weeks
期刊介绍: Journal of Integrative Agriculture publishes manuscripts in the categories of Commentary, Review, Research Article, Letter and Short Communication, focusing on the core subjects: Crop Genetics & Breeding, Germplasm Resources, Physiology, Biochemistry, Cultivation, Tillage, Plant Protection, Animal Science, Veterinary Science, Soil and Fertilization, Irrigation, Plant Nutrition, Agro-Environment & Ecology, Bio-material and Bio-energy, Food Science, Agricultural Economics and Management, Agricultural Information Science.
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