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持续种稻能否通过秸秆碳化利用增加高寒地区土壤肥力和水稻生产力?——一项为期 6 年的田间定位试验。

Could continuous rice cropping increase soil fertility and rice productivity by rice straw carbonized utilization in cold areas? - A 6-year field-located trial.

机构信息

Biochar Engineering & Technology Research Center of Liaoning Province, Agronomy College, Shenyang Agricultural University, No. 120 Dongling Road, Shenhe District, Shenyang, 110866, Liaoning Province, China.

出版信息

Environ Sci Pollut Res Int. 2023 Nov;30(51):110674-110686. doi: 10.1007/s11356-023-30097-4. Epub 2023 Oct 4.

DOI:10.1007/s11356-023-30097-4
PMID:37792197
Abstract

Biochar amendment can benefit rice growth, but the long-term effects of rice straw carbonized utilization (RSCU, biochar, and biochar-based fertilizer) on rice production in cold areas are still unclear. Herein, we conducted a field experiment over 6 years with four treatments: F (conventional fertilization) as the control, RB1 (biochar, 3 t·ha), RB2 (biochar, 6 t·ha), and RBF (biochar-based fertilizer, 0.75 t·ha). We found that rice straw biochar significantly improved soil physical properties by reducing soil bulk density, increasing soil porosity and liquid and gas phases ratio, and enhancing soil aggregate stability. RSCU also increased soil fertility by improving soil organic carbon (SOC), active organic carbon, and soil nutrients (N, P, K) and their availability, as indicated by an increase in soil C:N and a decrease in soil N:P. Moreover, biochar increased soil microbial biomass carbon (MBC), microbial biomass nitrogen (MBN), and enzyme activities. As a result, RSCU increased rice yield, which was positively correlated with soil total porosity, total phosphorus, available potassium, dissolved organic carbon (DOC), easily oxidizable carbon (EOC), labile fraction of organic carbon (LFOC), and urease activity. RB2 had the highest rice yield (5.94% higher than F). Our study suggests that RSCU can synergistically improve the rice straw utilization rate, soil fertility, and rice productivity in cold areas.

摘要

生物炭改良可以促进水稻生长,但在寒冷地区,水稻秸秆碳化利用(RSCU、生物炭和基于生物炭的肥料)对水稻生产的长期影响尚不清楚。在此,我们进行了一项为期 6 年的田间试验,有四个处理:F(常规施肥)为对照,RB1(生物炭,3 t·ha)、RB2(生物炭,6 t·ha)和 RBF(基于生物炭的肥料,0.75 t·ha)。我们发现,水稻秸秆生物炭通过降低土壤容重、增加土壤孔隙度和液相与气相比例、增强土壤团聚体稳定性,显著改善了土壤物理性质。RSCU 通过提高土壤有机碳(SOC)、活性有机碳和土壤养分(N、P、K)及其有效性,增加土壤 C:N 比和降低土壤 N:P 比,也提高了土壤肥力。此外,生物炭增加了土壤微生物生物量碳(MBC)、微生物生物量氮(MBN)和酶活性。因此,RSCU 提高了水稻产量,与土壤总孔隙度、总磷、有效钾、溶解性有机碳(DOC)、易氧化碳(EOC)、有机碳的活性部分(LFOC)和脲酶活性呈正相关。RB2 的水稻产量最高(比 F 高 5.94%)。我们的研究表明,RSCU 可以协同提高寒冷地区水稻秸秆利用率、土壤肥力和水稻生产力。

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