Perennial crops shape the soil microbial community and increase the soil carbon in the upper soil layer

IF 9.8 1区 农林科学 Q1 SOIL SCIENCE
Shoujiao Li , Ana Barreiro , Juan Pablo Almeida , Thomas Prade , Linda-Maria Dimitrova Mårtensson
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Abstract

Soil biodiversity is threatened by intensive agriculture that relies on annual grain crop production, thus leading to a decline in soil functions and ecosystem services. Perennial grain crops have a positive impact on the soil microbial community, but the responsive microbial groups and the magnitude of their response remain uncertain. To elucidate this, we analysed soil microbial biomass and community composition, bacterial growth and soil total carbon in five crops: organic perennial intermediate wheatgrass (IWG, Thinopyrum intermedium, Kernza®), organic IWG-alfalfa intercrop, organic biennial grass-legume mixture, organic annual wheat or rye and conventional annual wheat. The analysis was carried out at three time points under two growing seasons at four different soil depths. Five years after establishment, IWG had greater amounts of soil total fungi and bacteria, and of arbuscular mycorrhizal (AM) fungi, saprotrophic fungi, gram-negative (G) and gram-positive (G+) bacteria compared to annual wheat. Crop perenniality influenced the soil microbial community structure although precipitation, soil temperature and water content were the main drivers of the patterns of and temporal variations in the microbial community. Perennial crops, with reduced tillage and low nitrogen input management increased the proportions of fungi relative to bacteria, AM fungi to saprotrophic fungi, G bacteria to G+ bacteria, and the growth rate of total bacteria. This resulted in a more active soil microbial community with higher microbial biomass than annual wheat and contributed to the increased soil total carbon storage in the 0–5 cm soil layer in a humid continental climate. The findings emphasize the importance of combining a no tillage strategy with long-term vegetation cover to increase soil quality.

Abstract Image

Abstract Image

多年生作物塑造了土壤微生物群落,增加了土壤上层的土壤碳含量
密集型农业依赖于一年一度的粮食作物生产,从而导致土壤功能和生态系统服务下降,土壤生物多样性受到威胁。多年生谷物作物对土壤微生物群落有积极影响,但对其有反应的微生物群体及其反应程度仍不确定。为了阐明这一点,我们分析了五种作物的土壤微生物生物量和群落组成、细菌生长和土壤总碳:有机多年生中间小麦草(IWG,Thinopyrum intermedium,Kernza®)、有机 IWG-紫花苜蓿间作、有机二年生草-豆科植物混合物、有机一年生小麦或黑麦以及常规一年生小麦。分析在四个不同土壤深度的两个生长季节的三个时间点进行。与一年生小麦相比,在建立五年后,IWG 的土壤真菌和细菌总数、丛枝菌根(AM)真菌、嗜渍真菌、革兰氏阴性菌(G-)和革兰氏阳性菌(G+)的数量都有所增加。虽然降水、土壤温度和含水量是微生物群落模式和时间变化的主要驱动因素,但多年生作物影响了土壤微生物群落结构。多年生作物在减少耕作和低氮输入管理的情况下,真菌与细菌的比例、AM 真菌与噬菌真菌的比例、G- 细菌与 G+ 细菌的比例以及细菌总数的增长率都有所增加。这使得土壤微生物群落比一年生小麦更活跃,微生物生物量更高,从而增加了湿润大陆性气候下 0-5 厘米土层的土壤总碳储量。研究结果强调了将免耕策略与长期植被覆盖相结合以提高土壤质量的重要性。
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来源期刊
Soil Biology & Biochemistry
Soil Biology & Biochemistry 农林科学-土壤科学
CiteScore
16.90
自引率
9.30%
发文量
312
审稿时长
49 days
期刊介绍: Soil Biology & Biochemistry publishes original research articles of international significance focusing on biological processes in soil and their applications to soil and environmental quality. Major topics include the ecology and biochemical processes of soil organisms, their effects on the environment, and interactions with plants. The journal also welcomes state-of-the-art reviews and discussions on contemporary research in soil biology and biochemistry.
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