Nonadditive effects of biochar amendments on soil phosphorus fractions in two contrasting soils

Xu, Gang; Shao, Hongbo; Zhang, You; Sun, Jingsheng

doi:10.1002/ldr.3029

Cited by 25 publications

(21 citation statements)

References 39 publications

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“…In contrast to the positive impact on soil-available P described previously, especially in acidic soils, it has been shown that biochar with low P content can reduce P availability in soils [72], through increasing P sorption capacity promoted by surface area increase [81] and in metal oxides and carbonates [82] derived from biochar, through immobilisation of P by stimulating microbial activity [80,83] and by means of precipitation of stable phosphate minerals in alkaline soils [65].…”

Section: Change In the P Fixation Mechanism In Soils By Biochar Amendmentioning

confidence: 66%

“…Thus, soil P fixation increases in alkaline soils amended with biochar through precipitation of Ca-P minerals and P sorption onto calcite in alkaline soils due to additional input of alkaline elements such as Ca, which is often contained in biochar [63]. In general, biochar had no effect on P sorption isotherms in alkaline soils, especially in soils with high P sorption capacity [63,80].…”

Section: Change In the P Fixation Mechanism In Soils By Biochar Amendmentioning

confidence: 99%

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Role of biochar in promoting circular economy in the agriculture sector. Part 1: A review of the biochar roles in soil N, P and K cycles

Jindo

Audette

Higashikawa

et al. 2020

Chem. Biol. Technol. Agric.

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Recently, biochar has been widely used for versatile applications in agriculture and environment sectors as an effective tool to minimise waste and to increase the efficiency of circular economy. In the present work, we review the current knowledge about biochar role in N, P and K cycles. Ammonia volatilisation and N 2 O emission can be reduced by biochar addition. The content of available P can be improved by biochar through enhancement of solubilisation and reduction in P fixation on soil mineral, whilst high extractable K in biochar contributes to K cycle in soil. Liming effect and high CEC are important properties of biochars improving beneficial interactions with N, P and K soil cycle processes. The effectiveness of biochar on N, P and K cycles is associated with biochar properties which are mainly affected by feedstock type and pyrolysis condition.

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Section: Change In the P Fixation Mechanism In Soils By Biochar Amendmentioning

confidence: 66%

Section: Change In the P Fixation Mechanism In Soils By Biochar Amendmentioning

confidence: 99%

Role of biochar in promoting circular economy in the agriculture sector. Part 1: A review of the biochar roles in soil N, P and K cycles

Jindo

Audette

Higashikawa

et al. 2020

Chem. Biol. Technol. Agric.

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show abstract

“…Biochar decreased the activity of acid phosphomonoesterase but increased the activities of alkaline phosphomonoesterase (responsible for mineralization of organic P), indicating that biochar may affect related microorganisms and their released enzymes by increasing soil pH (Jin et al 2016). Xu et al (2018a) showed that biochar application significantly increased fractions of H 2 O-soluble and NaOH-extractable inorganic P, and NaHCO 3 -extractable organic P, but decreased the NaHCO 3 -extractable inorganic P fraction. This indicated that biochar addition assists microorganisms to solubilize the fixed P and increases microbial P immobilization.…”

Section: Soil Microbial-mediated P Cyclingmentioning

confidence: 98%

Association of biochar properties with changes in soil bacterial, fungal and fauna communities and nutrient cycling processes

Dai

Xiong

Zhu

et al. 2021

Biochar

171

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Soil microorganisms play crucial roles in soil nutrient cycling, carbon sequestration, fertility maintenance and crop health and production. To date, the responses of microorganisms, such as microbial activity, diversity, community structure and nutrient cycling processes, to biochar addition have been widely reported. However, the relationships between soil microbial groups (bacteria, fungi and microscopic fauna) and biochar physicochemical properties have not been summarized. In this review, we conclude that biochar affects soil microbial growth, diversity and community compositions by directly providing growth promoters for soil biota or indirectly changing soil basic properties. The porous structure, labile C, high pH and electrochemical properties of biochar play an important role in determining soil microbial abundance and communities, and their mediated N and P cycling processes, while the effects and underlying mechanisms vary with biochar types that are affected by pyrolysis temperature and feedstock type. Finally, we highlight some issues related to research methodology and subjects that are still poorly understood or controversial, and the perspectives for further research in microbial responses to biochar addition.

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“…A better method is to apply organic amendments to raise organic matter amount of the salt‐affected soil (Montiel‐Rozas, Panettieri, Madejón, & Madejón, ; Oo, Iwai, & Saenjan, ; Reed, Chadwick, Hill, & Jones, ; Veneklaas et al, ). Different types of organic amendments such as green manures, farmyard and poultry manures, compost, food‐processing wastes, and biochar have been applied to soils for enhancing soil quality (Bhaduri et al, ; Liu et al, ; Xu, Zhang, Shao, & Sun, ; Yang, Bian, Tang, Zhou, & Li, ). Among these, green manure is a promising way with long‐term effects and low cost (Bai et al, ; Bai, Xu, et al, ; Bai, Yan, et al, ; Bai, Zou, et al, ; Li et al, ; Maltas, Kebli, Oberholzer, Weisskopf, & Sinaj, ; Meier et al, ; Xu et al, ; Yang et al, ).…”

Section: Introductionmentioning

confidence: 99%

Towards sustainable agriculture for the salt‐affected soil

Shao

Chu

et al. 2018

Land Degrad Dev

Self Cite

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Salt stress is a major problem happening in almost all the world, affecting soil metabolism and acting further negatively soil fertility and soil quality, causing land degradation and low ecosystem service functions and ecosystem productivity. In marshy area as one type of important marginal land resources, salt is also the main barrier to be improved and the driving force to make vegetation succeed. This commentary briefly reviews the main advance focusing on salt‐affected soil and introduced the publications in this Special Issue: Salt Soil Improvement and Efficient Development in Land Degradation & Development 29, 2018, to promote global cooperation for studying salt‐affecting soil quality, land degradation, and eco‐restoration.

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Nonadditive effects of biochar amendments on soil phosphorus fractions in two contrasting soils

Cited by 25 publications

References 39 publications

Role of biochar in promoting circular economy in the agriculture sector. Part 1: A review of the biochar roles in soil N, P and K cycles

Role of biochar in promoting circular economy in the agriculture sector. Part 1: A review of the biochar roles in soil N, P and K cycles

Association of biochar properties with changes in soil bacterial, fungal and fauna communities and nutrient cycling processes

Towards sustainable agriculture for the salt‐affected soil

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