巴西东南沿海塬地间作柯尼隆咖啡对土壤质量的改善

Gustavo Soares de Souza, Cássio Carlette Thiengo, Samuel de Assis Silva, Edinei José Armani Borghi
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摘要

本研究的目的是评价巴西圣托Espírito沿海高原间作柯尼隆咖啡(Coffea canephora P.)和充足阳光下土壤的物理水文、化学性质和有机碳储量。评价的处理为1区咖啡间作橡胶树(CR)和日光充足(FS);2区咖啡间作木瓜(CP)和充足日照(FS);咖啡与椰子间作(CC),在充足的阳光下(FS),并在区域3的原生植被区(NV)。测定了0 ~ 0.4 m土层的土壤理化性质及其有机碳储量。区1土壤容重和温度较低,总孔隙度和宏观孔隙度较高。2区CP有效水量和土壤含水量较高,土壤肥力较好,土壤温度较低。区3的总孔隙度、有效水量和土壤有机碳储量均较高。NV表现出土壤的物理和化学性质,限制了作物的农业发展。相比于全日照栽培和沿海塬地原生植被栽培,Conilon咖啡种植园可以改善土壤的物理水文和化学质量,这因间作栽培而异。
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Improvement of the soil quality under intercropped conilon coffee (Coffea canephora P.) in the coastal tablelands of Southeast Brazil
The objective of this study was to evaluate the physical-hydrological and chemical properties and organic carbon stock of soil under intercropped conilon coffee (Coffea canephora P.) and in full sun in the coastal tablelands of Espírito Santo, Brazil. The treatments evaluated were coffee intercropped with rubber tree (CR) and in full sun (FS) in the area 1; coffee intercropped with papaya (CP) and in full sun (FS) in the area 2; coffee intercropped with coconut (CC), in full sun (FS), and an area of ​​native vegetation (NV) in the area 3. The physical and chemical properties of the soil and its organic carbon stocks were measured in layers of 0-0.4 m. In area 1, CR showed lower soil bulk density and temperature, and higher total porosity and macroporosity. In area 2, CP presented higher available water capacity and soil water content, better soil fertility, and lower soil temperature. In area 3, CC presented higher total porosity, available water capacity, and soil organic carbon stock. NV presented physical and chemical properties of soil that limit the agricultural development of the crops. Conilon coffee plantations can improve the physical-hydrological and chemical quality of soil compared to cultivation in full sun and native vegetation in the coastal tablelands, which varies according to the intercropped culture.
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