Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions

Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions

Abstract Land use change driven by diet, globalization, and technology advancement have greatly influenced agricultural production and environment in the mollisols region of China, with a marked impact on the depletion of soil organic matter, a signature property of mollisols. Here we report finding...

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Main Authors: Yuxin Tong, Jianguo Liu, Xiaolin Li, Jing Sun, Anna Herzberger, Dan Wei, Weifeng Zhang, Zhengxia Dou, Fusuo Zhang
Format: Article
Language:English
Published: Nature Publishing Group 2017-12-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-18270-5
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spelling doaj-44a5172a834941cdb1e13b9007461a082020-12-08T02:40:44ZengNature Publishing GroupScientific Reports2045-23222017-12-01711910.1038/s41598-017-18270-5Cropping System Conversion led to Organic Carbon Change in China’s Mollisols RegionsYuxin Tong0Jianguo Liu1Xiaolin Li2Jing Sun3Anna Herzberger4Dan Wei5Weifeng Zhang6Zhengxia Dou7Fusuo Zhang8Key Laboratory of Plant-Soil Interactions, Ministry of Education, Center for Resources, Environment, and Food Security, China Agricultural UniversityCenter for Systems Integration and Sustainability, Department of Fisheries and Wildlife, Michigan State UniversityKey Laboratory of Plant-Soil Interactions, Ministry of Education, Center for Resources, Environment, and Food Security, China Agricultural UniversityCenter for Systems Integration and Sustainability, Department of Fisheries and Wildlife, Michigan State UniversityCenter for Systems Integration and Sustainability, Department of Fisheries and Wildlife, Michigan State UniversityKey Laboratory of Soil Environment and Plant Nutrition of Heilongjiang Province, Fertilizer Engineering Technology Research Center of Heilongjiang Province, Institute of Soil Fertilizer and Environment Resources, Heilongjiang Academy of Agriculture SciencesKey Laboratory of Plant-Soil Interactions, Ministry of Education, Center for Resources, Environment, and Food Security, China Agricultural UniversityCenter for Animal Health and Productivity, School of Veterinary Medicine, University of PennsylvaniaKey Laboratory of Plant-Soil Interactions, Ministry of Education, Center for Resources, Environment, and Food Security, China Agricultural UniversityAbstract Land use change driven by diet, globalization, and technology advancement have greatly influenced agricultural production and environment in the mollisols region of China, with a marked impact on the depletion of soil organic matter, a signature property of mollisols. Here we report findings on soil organic carbon (SOC) change in three different cropping systems (soybean, soybean/maize, corn) in Northeast China during a 10-year time span. The results indicated that the decline rate of SOC in recent ten years (0.27 g kg−1 yr−1) has slowed down considerably compared to previous decades (1.12 g kg−1 yr−1). Crop system conversion from soybean monocropping to corn monocropping or break system was the critical factor for SOC change, and the background SOC was the second influence factor. When approaching a SOC turning point, conversion from low carbon input crop system (soybeans monocropping) to high carbon input crop system helped slow down the SOC decline (break crop) or even improve SOC (corn monocropping) in mollisols regions. This result implied that imported soybean has brought benefit for Northeast China. But for sustainable goal in China’s mollisols region, straw returning, optimized nitrogen fertilization and no tillage are all necessary whatever in continues maize or rotation system.https://doi.org/10.1038/s41598-017-18270-5
collection DOAJ
language English
format Article
sources DOAJ
author Yuxin Tong
Jianguo Liu
Xiaolin Li
Jing Sun
Anna Herzberger
Dan Wei
Weifeng Zhang
Zhengxia Dou
Fusuo Zhang
spellingShingle Yuxin Tong
Jianguo Liu
Xiaolin Li
Jing Sun
Anna Herzberger
Dan Wei
Weifeng Zhang
Zhengxia Dou
Fusuo Zhang
Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions
Scientific Reports
author_facet Yuxin Tong
Jianguo Liu
Xiaolin Li
Jing Sun
Anna Herzberger
Dan Wei
Weifeng Zhang
Zhengxia Dou
Fusuo Zhang
author_sort Yuxin Tong
title Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions
title_short Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions
title_full Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions
title_fullStr Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions
title_full_unstemmed Cropping System Conversion led to Organic Carbon Change in China’s Mollisols Regions
title_sort cropping system conversion led to organic carbon change in china’s mollisols regions
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-12-01
description Abstract Land use change driven by diet, globalization, and technology advancement have greatly influenced agricultural production and environment in the mollisols region of China, with a marked impact on the depletion of soil organic matter, a signature property of mollisols. Here we report findings on soil organic carbon (SOC) change in three different cropping systems (soybean, soybean/maize, corn) in Northeast China during a 10-year time span. The results indicated that the decline rate of SOC in recent ten years (0.27 g kg−1 yr−1) has slowed down considerably compared to previous decades (1.12 g kg−1 yr−1). Crop system conversion from soybean monocropping to corn monocropping or break system was the critical factor for SOC change, and the background SOC was the second influence factor. When approaching a SOC turning point, conversion from low carbon input crop system (soybeans monocropping) to high carbon input crop system helped slow down the SOC decline (break crop) or even improve SOC (corn monocropping) in mollisols regions. This result implied that imported soybean has brought benefit for Northeast China. But for sustainable goal in China’s mollisols region, straw returning, optimized nitrogen fertilization and no tillage are all necessary whatever in continues maize or rotation system.
url https://doi.org/10.1038/s41598-017-18270-5
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