Time-course of soil microbial communities in different tillage and crop rotation systems

The soil microbial communities involved in the biogeochemical cycles of plant nutrients are negatively affected by unfavorable agricultural practices. In three tillage systems (traditional tillage, TT; traditional tillage with residue incorporation, TTI; and conservation tillage, CT) with three crop...

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Veröffentlicht in:	Chilean journal of agricultural research 2020-10, Vol.80 (4), p.650-660
Hauptverfasser:	Gonzalez-Figueroa, Sarahyt S, Covarrubias-Prieto, Jorge, Aguirre-Mancilla, Cesar L, Raya-Perez, Juan C, Gamez-Vazquez, Alfredo J, Grageda-Cabrera, Oscar A
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Schlagworte:	Actinomycetes Agricultural practices Agriculture AGRICULTURE, MULTIDISCIPLINARY AGRONOMY Bacteria Beans Biodiversity Biogeochemical cycles Community involvement Conservation practices Conservation tillage Crop rotation Cropping systems Crops Cultivation Experiments Fungi Generalized linear models Grain cultivation Legumes Microbial activity Microbiota Microbiota (Symbiotic organisms) Microorganisms Mimosaceae Nutrient cycles Nutrients Populations Principal components analysis Soil conservation Soil depth Soil fertility Soil microbiology Soil microorganisms Soils Sustainability Tillage
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container_title	Chilean journal of agricultural research
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creator	Gonzalez-Figueroa, Sarahyt S Covarrubias-Prieto, Jorge Aguirre-Mancilla, Cesar L Raya-Perez, Juan C Gamez-Vazquez, Alfredo J Grageda-Cabrera, Oscar A
description	The soil microbial communities involved in the biogeochemical cycles of plant nutrients are negatively affected by unfavorable agricultural practices. In three tillage systems (traditional tillage, TT; traditional tillage with residue incorporation, TTI; and conservation tillage, CT) with three crop rotations (cereal-cereal, C-C; legume-cereal, L-C; and cereal-legume, C-L) at three soil depths (0-5, 5-15, and 15-30 cm), the effects on the populations of bacteria, actinomycetes, and fungi over a period of six crop cycles (3 yr) were evaluated. The tillage system, crop rotation, and depth affected the concentration of microbes in the soil. Under TT/C-C (regional control), they decreased by 7.5%; in contrast, under CT/L-C and TTI/L-C, they increased by 144% and 76%, respectively. Regardless of the tillage system, rotation with legumes, especially when the legume was cultivated in the spring-summer cycle (C-L), caused significant increases in microbial populations. At the end of 3 yr, under CT and TTI the populations of actinomycetes increased, while the fungal population remained stable and the bacterial populations fluctuated in the different crop cycles. In all treatments, the concentration of microorganisms decreased with soil depth. Local practices represent a risk to the diversity of soil microbiota, and it is imperative that farmers adopt conservation practices to achieve sustainability.
doi_str_mv	10.4067/S0718-58392020000400650
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In three tillage systems (traditional tillage, TT; traditional tillage with residue incorporation, TTI; and conservation tillage, CT) with three crop rotations (cereal-cereal, C-C; legume-cereal, L-C; and cereal-legume, C-L) at three soil depths (0-5, 5-15, and 15-30 cm), the effects on the populations of bacteria, actinomycetes, and fungi over a period of six crop cycles (3 yr) were evaluated. The tillage system, crop rotation, and depth affected the concentration of microbes in the soil. Under TT/C-C (regional control), they decreased by 7.5%; in contrast, under CT/L-C and TTI/L-C, they increased by 144% and 76%, respectively. Regardless of the tillage system, rotation with legumes, especially when the legume was cultivated in the spring-summer cycle (C-L), caused significant increases in microbial populations. At the end of 3 yr, under CT and TTI the populations of actinomycetes increased, while the fungal population remained stable and the bacterial populations fluctuated in the different crop cycles. In all treatments, the concentration of microorganisms decreased with soil depth. Local practices represent a risk to the diversity of soil microbiota, and it is imperative that farmers adopt conservation practices to achieve sustainability.</description><identifier>ISSN: 0718-5839</identifier><identifier>ISSN: 0718-5820</identifier><identifier>EISSN: 0718-5839</identifier><identifier>DOI: 10.4067/S0718-58392020000400650</identifier><language>eng</language><publisher>Chillán: Instituto de Investigaciones Agropecuarias</publisher><subject>Actinomycetes ; Agricultural practices ; Agriculture ; AGRICULTURE, MULTIDISCIPLINARY ; AGRONOMY ; Bacteria ; Beans ; Biodiversity ; Biogeochemical cycles ; Community involvement ; Conservation practices ; Conservation tillage ; Crop rotation ; Cropping systems ; Crops ; Cultivation ; Experiments ; Fungi ; Generalized linear models ; Grain cultivation ; Legumes ; Microbial activity ; Microbiota ; Microbiota (Symbiotic organisms) ; Microorganisms ; Mimosaceae ; Nutrient cycles ; Nutrients ; Populations ; Principal components analysis ; Soil conservation ; Soil depth ; Soil fertility ; Soil microbiology ; Soil microorganisms ; Soils ; Sustainability ; Tillage</subject><ispartof>Chilean journal of agricultural research, 2020-10, Vol.80 (4), p.650-660</ispartof><rights>COPYRIGHT 2020 Instituto de Investigaciones Agropecuarias</rights><rights>2020. 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In three tillage systems (traditional tillage, TT; traditional tillage with residue incorporation, TTI; and conservation tillage, CT) with three crop rotations (cereal-cereal, C-C; legume-cereal, L-C; and cereal-legume, C-L) at three soil depths (0-5, 5-15, and 15-30 cm), the effects on the populations of bacteria, actinomycetes, and fungi over a period of six crop cycles (3 yr) were evaluated. The tillage system, crop rotation, and depth affected the concentration of microbes in the soil. Under TT/C-C (regional control), they decreased by 7.5%; in contrast, under CT/L-C and TTI/L-C, they increased by 144% and 76%, respectively. Regardless of the tillage system, rotation with legumes, especially when the legume was cultivated in the spring-summer cycle (C-L), caused significant increases in microbial populations. At the end of 3 yr, under CT and TTI the populations of actinomycetes increased, while the fungal population remained stable and the bacterial populations fluctuated in the different crop cycles. In all treatments, the concentration of microorganisms decreased with soil depth. 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negatively affected by unfavorable agricultural practices. In three tillage systems (traditional tillage, TT; traditional tillage with residue incorporation, TTI; and conservation tillage, CT) with three crop rotations (cereal-cereal, C-C; legume-cereal, L-C; and cereal-legume, C-L) at three soil depths (0-5, 5-15, and 15-30 cm), the effects on the populations of bacteria, actinomycetes, and fungi over a period of six crop cycles (3 yr) were evaluated. The tillage system, crop rotation, and depth affected the concentration of microbes in the soil. Under TT/C-C (regional control), they decreased by 7.5%; in contrast, under CT/L-C and TTI/L-C, they increased by 144% and 76%, respectively. Regardless of the tillage system, rotation with legumes, especially when the legume was cultivated in the spring-summer cycle (C-L), caused significant increases in microbial populations. At the end of 3 yr, under CT and TTI the populations of actinomycetes increased, while the fungal population remained stable and the bacterial populations fluctuated in the different crop cycles. In all treatments, the concentration of microorganisms decreased with soil depth. Local practices represent a risk to the diversity of soil microbiota, and it is imperative that farmers adopt conservation practices to achieve sustainability.</abstract><cop>Chillán</cop><pub>Instituto de Investigaciones Agropecuarias</pub><doi>10.4067/S0718-58392020000400650</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Actinomycetes Agricultural practices Agriculture AGRICULTURE, MULTIDISCIPLINARY AGRONOMY Bacteria Beans Biodiversity Biogeochemical cycles Community involvement Conservation practices Conservation tillage Crop rotation Cropping systems Crops Cultivation Experiments Fungi Generalized linear models Grain cultivation Legumes Microbial activity Microbiota Microbiota (Symbiotic organisms) Microorganisms Mimosaceae Nutrient cycles Nutrients Populations Principal components analysis Soil conservation Soil depth Soil fertility Soil microbiology Soil microorganisms Soils Sustainability Tillage
title	Time-course of soil microbial communities in different tillage and crop rotation systems
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