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津巴布韦半湿润地区耕作、轮作和施用矿物肥料条件下土壤的碳储量、团聚体稳定性及水力特性

Carbon stock, aggregate stability and hydraulic properties of soils under tillage, crop rotation and mineral fertiliser application in sub-humid Zimbabwe.

作者信息

Jephita Gotosa, Jefline Kodzwa, Willis Gwenzi, Justice Nyamangara

机构信息

Department of Environmental Science and Technology, Chinhoyi University of Technology, P.O. Box 7724, Chinhoyi, Zimbabwe.

Department of Natural Resources, Bindura University of Science Education, P. Bag 1020, Bindura, Zimbabwe.

出版信息

Heliyon. 2023 Apr 29;9(5):e15846. doi: 10.1016/j.heliyon.2023.e15846. eCollection 2023 May.

Abstract

Appropriate tillage and crop diversifications can improve soil quality leading to yield sustainability. Our objective was to quantify tillage, crop rotation and mineral fertiliser application effects on carbon sequestration, aggregation and soil water movement after two cropping cycles in the smallholder sector of Zimbabwe. Two split-plot experiments were set up at four sites on sandy, loamy and clayey soils. At experiment 1, crop rotation (maize-soya bean; continuous maize) was the main plot and mineral fertiliser ((NPKS (180 N + 30PO+30KO+6.5SO kg ha); control (no fertiliser added)) was the sub-plot. At experiment 2, tillage (reduced, conventional) was the main plot and mineral fertiliser (NPKS; control) was the sub-plot. Soil samples collected from 0 to 0.2 m and 0.2-0.4 m layers were analysed for soil organic matter (SOM) content, bulk density and proportion of water stable aggregates. Saturated hydraulic conductivities (K), steady state infiltration rates (i) and soil sorptivities (S) were estimated from fitting field infiltration data into the Phillip model. SOM stocks (mean = 3.483 Mg ha) were significantly increased by reduced tillage at the sandy site and higher (p < 0.05) in 0-0.20 m than in 0.20-0.40 m layers at clayey sites. Proportion of water stable aggregates increased (p < 0.05) under reduced tillage compared with conventional tillage and under rotation compared with continuous maize system. Bulk densities were 11% lower (p < 0.05) in the 0-0.20 m than in 0.20-0.40 m layers. The estimated K(1 × 10-8x10 cm s) and i (7.08-55 × 10 cm s) were at least 100% higher (p < 0.05) under rotation compared with continuous maize whilst sorptivities (0.050-0.143 cm s) did not vary across the treatments. NPKS fertiliser reduced (p < 0.05) by up to 1.8 fold compared with the control. Short term adoption of reduced tillage and maize-soya bean rotation can mitigate soil structural degradation; increase water recharging and increase carbon sequestration quicker in sands than in the buffering clays making the practices more relevant in the smallholder sector.

摘要

适当的耕作和作物多样化可以改善土壤质量,从而实现产量的可持续性。我们的目标是量化在津巴布韦小农户部门两个种植周期后,耕作、作物轮作和矿物肥料施用对碳固存、团聚和土壤水分运动的影响。在沙质、壤质和黏质土壤的四个地点进行了两个裂区试验。在试验1中,作物轮作(玉米-大豆;连作玉米)为主区,矿物肥料(NPKS(180N + 30P₂O₅ + 30K₂O + 6.5SO₄ kg/公顷);对照(不施肥))为副区。在试验2中,耕作(少耕、传统耕作)为主区,矿物肥料(NPKS;对照)为副区。采集0至-0.2米和0.2 - 0.4米土层的土壤样本,分析土壤有机质(SOM)含量、容重和水稳性团聚体比例。通过将田间入渗数据拟合到菲利普模型中来估算饱和导水率(K)、稳态入渗率(i)和土壤吸着率(S)。少耕使沙质土壤的SOM储量(平均 = 3.483 Mg/公顷)显著增加,在黏质土壤中,0 - 0.20米土层的SOM储量比0.20 - 0.40米土层更高(p < 0.05)。与传统耕作相比,少耕条件下以及与连作玉米系统相比,轮作条件下水稳性团聚体比例增加(p < 0.05)。0 - 0.20米土层的容重比0.20 - 0.40米土层低11%(p < 0.05)。与连作玉米相比,轮作条件下估算的K(1×10⁻⁸ - 10 cm/s)和i(7.08 - 55×10 cm/s)至少高出100%(p < 0.05),而吸着率(0.050 - 0.143 cm/s)在各处理间无差异。与对照相比,NPKS肥料使(p < 0.05)降低了1.8倍。短期内采用少耕和玉米-大豆轮作可以减轻土壤结构退化;增加水分补给,并使沙地比缓冲性黏土更快地增加碳固存,使这些做法在小农户部门更具相关性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d2f1/10165406/460829c0c10d/gr1.jpg

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