生物炭的应用可改善酸性土壤的大部分化学性质:全球元分析

IF 2.3 Q1 AGRICULTURE, MULTIDISCIPLINARY ACS agricultural science & technology Pub Date : 2024-02-21 DOI:10.1021/acsagscitech.3c00564
Muhammad Aurangzeib, Shaoliang Zhang*, Sihua Yan, Jianhong Zhou, Xiaoguang Niu, Pengke Yan and Jiuqi Wang, 
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引用次数: 0

摘要

生物炭已被广泛用于改善酸性土壤的性质。然而,生物炭在酸性土壤性质方面的有效性还存在争议,在以往的综述中关注较少。本荟萃分析旨在确定生物炭热解温度(BPT)的重要性以及生物炭特性对酸性土壤特性的影响。皮尔逊相关性和荟萃分析表明,BPT 与生物炭 pH 值(BpH)、生物炭总碳量、生物炭灰分(BAs)和生物炭碳氮比(BC/N)呈显著正相关,与生物炭总氮量(BN)呈显著负相关。生物炭原料秸秆对提高酸性土壤 pH 值(SpH)、土壤电导率(SEC)、土壤可利用磷(SAP)和土壤有机质(SOM)更有效。生物炭施用量≥ 80 吨/公顷时,酸性土壤 pH 值(SpH)、土壤可利用氮(SAN)、土壤可利用钾(SAK)和土壤有机质均有明显提高。BpH ≥ 10 时,除 SEC 外,所有观察到的酸性土壤特性都有所增加。BC/N 30-45 能明显增加 SAN、SAP 和 SOM,而 BC/N ≤ 30 则能更有效地增加 SpH 和 SAK。BN、生物炭总磷和生物炭总钾与土壤性质的关系不一致,但 BN≥1% 不仅能增加 SAN,还能增加 SAP 和 SAK。除 SAK 外,BA ≤ 15 能显著提高所有观察到的土壤特性。根据 PLS-SEM,BPT 影响生物炭特性,进而影响土壤特性(P < 0.05)。总体而言,根据总平均效应大小,在酸性土壤中施用生物炭会增加所有观察到的土壤性质。这篇文章给了我们一个清晰的印象:如果 SpH < 7,那么 BPT ≥ 800、BF straw 和 BpH > 10 就可以用来改善酸性土壤的性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Biochar Application Can Improve Most of the Chemical Properties of Acidic Soils: A Global Meta-Analysis

Biochar has been widely used to improve the properties of acidic soil properties. However, the effectiveness of biochar in acidic soil properties was debated and has been less focused on in previous reviews. The present meta-analysis aimed to determine the importance of the biochar pyrolysis temperature (BPT) and the effect of biochar properties on acidic soil properties. The Pearson correlation and a meta-analysis involving the data obtained from 50 peer-reviewed publications showed that BPT has a significant positive correlation with biochar pH (BpH), biochar total carbon, biochar ash (BAs), and the biochar carbon to nitrogen ratio (BC/N), and a significant negative correlation with biochar total nitrogen (BN). The biochar feedstock straw was more effective in increasing the acidic soil pH (SpH), soil electrical conductivity (SEC), soil available phosphorus (SAP), and soil organic matter (SOM). The biochar application rates ≥ 80 t ha–1 significantly increased the acidic SpH, soil available nitrogen (SAN), soil available potassium (SAK), and SOM. The BpH ≥ 10 increased all the observed acidic soil properties except SEC. The BC/N 30–45 significantly increased SAN, SAP, and SOM, while the BC/N ≤ 30 was more effective at increasing SpH and SAK. The relationship of BN, biochar total phosphorus, and biochar total potassium with soil properties was inconsistent except that BN ≥ 1% not only increased the SAN but also increased the SAP and SAK. Except for SAK, BAs ≤ 15 significantly increased all observed soil properties. According to the PLS-SEM, BPT affects biochar properties and then affects soil properties (P < 0.05). Generally, the application of biochar in acidic soil increases all the observed soil properties according to the grand mean total effect size. This article gives us a clear image that if the SpH < 7, then BPT ≥ 800, BF straw, and BpH > 10 can be used to improve the acidic soil properties.

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