优化生物炭的应用以改善盐碱地的土壤物理和水力性质。

Optimizing biochar application to improve soil physical and hydraulic properties in saline-alkali soils.

机构信息

College of Water Resources and Architecture Engineering, Northwest A&F University, Yangling 712100, PR China; Key Lab of Agricultural Water and Soil Engineering of Education Ministry, Northwest A&F University, Yangling 712100, PR China.

出版信息

Sci Total Environ. 2021 Jun 1;771:144802. doi: 10.1016/j.scitotenv.2020.144802. Epub 2021 Jan 27.

DOI:10.1016/j.scitotenv.2020.144802

PMID:33736170

Abstract

Biochar application has been a promising approach to improve soil quality but their optimal amount in improving physical and hydraulic properties remains contradictory and inconclusive. The objective of this study was to examine and propose an optimal biochar application amount in saline alkali soil considering their impact on soil physical and hydraulic properties. A three-year field experiment was conducted in the saline-alkali soils under plastic film-mulched drip irrigation in Xinjiang, China. The studied physical and hydraulic properties included bulk density, soil porosity, saturated soil water content (θ), permanent wilting point (PWP), field capacity (FC), plant available water (PAW), spatial distribution of soil water content, planar soil water storage (PSWS), and soil evaporation. The treatments included biochar application amounts of 0 (CK), 10 (B10), 50 (B50), and 100 t ha (B100) in 2018. Additional two treatments with 25 t ha (B25) and 30 t ha (B30) were added in 2019 and 2020, respectively. A four-parameter Gaussian function was fitted to the single-peak curves of the studied hydraulic properties vs. biochar application amounts to determine the most optimal biochar application amount. The results indicated that: (1) All of the biochar treatments significantly decreased bulk density and increased soil porosity over CK; (2) B10 and B25 treatments significantly increased θ, FC, PAW, PWP, and PSWS of root zones in the film-mulched zones over CK, but reverse results were observed in the B50 and B100 treatments; (3) Daily and cumulative soil evaporation were increased in no mulch zones of all biochar treatments over CK; (4) A dose of 21.9 t ha was recommended as the most optimal biochar application amount for improving physical and hydraulic properties of saline-alkali soil. This research provided useful information on biochar application amounts for improving physical and hydraulic properties in saline-alkali soil.

摘要

生物炭的应用是改善土壤质量的一种很有前途的方法，但在提高物理和水力性质方面的最佳用量仍然存在矛盾和不确定。本研究的目的是在考虑生物炭对土壤物理和水力性质影响的情况下，检验并提出盐碱地的最佳生物炭施用量。在中国新疆，采用塑料薄膜滴灌条件下的三年田间试验，研究了物理和水力性质，包括容重、土壤孔隙度、饱和土壤含水量（θ）、永久萎蔫点（PWP）、田间持水量（FC）、植物可用水（PAW）、土壤含水量空间分布、平面土壤储水量（PSWS）和土壤蒸发。处理包括 2018 年的生物炭施用量为 0（CK）、10（B10）、50（B50）和 100t·ha（B100）。2019 年和 2020 年分别增加了 25t·ha（B25）和 30t·ha（B30）的处理。用四参数高斯函数拟合研究的水力性质与生物炭施用量的单峰曲线，以确定最适宜的生物炭施用量。结果表明：（1）与 CK 相比，所有生物炭处理均显著降低容重，增加土壤孔隙度；（2）B10 和 B25 处理显著增加了覆膜区根系带的θ、FC、PAW、PWP 和 PSWS，而 B50 和 B100 处理则相反；（3）在所有生物炭处理的无覆盖区，日和累积土壤蒸发量均增加；（4）推荐 21.9t·ha 作为提高盐碱地物理和水力性质的最适宜生物炭施用量。本研究为提高盐碱地物理和水力性质的生物炭施用量提供了有用的信息。

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优化生物炭的应用以改善盐碱地的土壤物理和水力性质。

Optimizing biochar application to improve soil physical and hydraulic properties in saline-alkali soils.

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