Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.

Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.

Potassium (K) input is essential for the improvement of soil fertility in agricultural systems. However, organic amendment may differ from mineral K fertilization with respect to modifying the soil K transformation among different fractions, affecting soil K availability. We conducted a 60-day lab i...

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Main Authors: Xiushuang Li, Yafei Li, Tianqi Wu, Chunyan Qu, Peng Ning, Jianglan Shi, Xiaohong Tian
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0236634
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spelling doaj-da7e4b3e06014cceaa63bbde3670203b2021-03-03T21:57:51ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01157e023663410.1371/journal.pone.0236634Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.Xiushuang LiYafei LiTianqi WuChunyan QuPeng NingJianglan ShiXiaohong TianPotassium (K) input is essential for the improvement of soil fertility in agricultural systems. However, organic amendment may differ from mineral K fertilization with respect to modifying the soil K transformation among different fractions, affecting soil K availability. We conducted a 60-day lab incubation experiment to evaluate the response of soil K dynamics and availability in various fractions with a view to simulating crop residue return and chemical K fertilization in an Anthrosol of northwest China. The tested soil was divided into two main groups, no K fertilization (K0) and K fertilization (K1), each of which was subjected to four straw addition regimes: no straw addition (Control), wheat straw addition (WS), maize straw addition (MS), and both wheat straw and maize straw addition (WS+MS). Soil K levels in the available (AK) and non-exchangeable (NEK) fractions were both significantly increased after K addition, following the order of K>WS>MS. Fertilizer K was the most efficient K source, demonstrating a 72.9% efficiency in increasing soil AK, while wheat and maize straw exhibited efficiencies of 47.1% and 39.3%, respectively. Furthermore, K fertilization and wheat and maize straw addition increased the soil AK in a cumulative manner when used in combination. The mobility factor (MF) and reduced partition index (IR) of soil K were used to quantitate the comprehensive soil K mobility and stability, respectively. Positive relationships were observed between the MF and all relatively available fractions of soil K, whereas the IR value of soil K correlated negatively with both MF and all available fractions of soil K. In conclusion, straw amendment could be inferior to mineral K fertilization in improving soil K availability when they were almost equal in the net K input. Crop straw return coupled with K fertilization can be a promising strategy for improving both soil K availability and cycling in soil-plant systems.https://doi.org/10.1371/journal.pone.0236634
collection DOAJ
language English
format Article
sources DOAJ
author Xiushuang Li
Yafei Li
Tianqi Wu
Chunyan Qu
Peng Ning
Jianglan Shi
Xiaohong Tian
spellingShingle Xiushuang Li
Yafei Li
Tianqi Wu
Chunyan Qu
Peng Ning
Jianglan Shi
Xiaohong Tian
Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.
PLoS ONE
author_facet Xiushuang Li
Yafei Li
Tianqi Wu
Chunyan Qu
Peng Ning
Jianglan Shi
Xiaohong Tian
author_sort Xiushuang Li
title Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.
title_short Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.
title_full Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.
title_fullStr Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.
title_full_unstemmed Potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest China: An incubation study.
title_sort potassium fertilization combined with crop straw incorporation alters soil potassium fractions and availability in northwest china: an incubation study.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Potassium (K) input is essential for the improvement of soil fertility in agricultural systems. However, organic amendment may differ from mineral K fertilization with respect to modifying the soil K transformation among different fractions, affecting soil K availability. We conducted a 60-day lab incubation experiment to evaluate the response of soil K dynamics and availability in various fractions with a view to simulating crop residue return and chemical K fertilization in an Anthrosol of northwest China. The tested soil was divided into two main groups, no K fertilization (K0) and K fertilization (K1), each of which was subjected to four straw addition regimes: no straw addition (Control), wheat straw addition (WS), maize straw addition (MS), and both wheat straw and maize straw addition (WS+MS). Soil K levels in the available (AK) and non-exchangeable (NEK) fractions were both significantly increased after K addition, following the order of K>WS>MS. Fertilizer K was the most efficient K source, demonstrating a 72.9% efficiency in increasing soil AK, while wheat and maize straw exhibited efficiencies of 47.1% and 39.3%, respectively. Furthermore, K fertilization and wheat and maize straw addition increased the soil AK in a cumulative manner when used in combination. The mobility factor (MF) and reduced partition index (IR) of soil K were used to quantitate the comprehensive soil K mobility and stability, respectively. Positive relationships were observed between the MF and all relatively available fractions of soil K, whereas the IR value of soil K correlated negatively with both MF and all available fractions of soil K. In conclusion, straw amendment could be inferior to mineral K fertilization in improving soil K availability when they were almost equal in the net K input. Crop straw return coupled with K fertilization can be a promising strategy for improving both soil K availability and cycling in soil-plant systems.
url https://doi.org/10.1371/journal.pone.0236634
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AT yafeili potassiumfertilizationcombinedwithcropstrawincorporationalterssoilpotassiumfractionsandavailabilityinnorthwestchinaanincubationstudy
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