可可树农林业模式小气候和土壤特征的改善

Ramces Sitohang, E. Putra, Cahyo Wulandari
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引用次数: 0

摘要

荫蔽树用于农林业模式中的生产和服务方面。可可树农林复合模式有望改善可可种植园的大气和根际带。然而,与此相关的信息仍然相当有限。本研究采用嵌套设计,以不同类型的遮荫树为巢。所用的遮荫树为毛壳珊瑚、椰子树和眼镜决明,不遮荫的作为对照。观测到的变量包括光照、气温、湿度、土壤温度、土壤质地、堆积密度、渗透性和含水量。结果表明,采用毛鹿和壮观毛鹿的可可农林业模式能够改善小气候特征和土壤肥力。然而,毛鹿加的土壤肥力低于壮观毛鹿加。F.moluccana和C.spectabilis遮荫树能够分别从33%到34%和从38%到39%优化光照植物。F.moluccana可以提供30的最佳空气和土壤温度⁰C至32⁰C和27⁰C、 分别。同时,壮观C.spectabilis可以提供29℃的最佳空气和土壤温度⁰C至31⁰C和26⁰C至27⁰C、 连续。采用紫檀遮荫的椰树农林复合模式可以优化土壤含水量、pH值、总氮和总磷以及土壤中K、Ca、Mg和B的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The improvement of microclimate and soil characteristics in cocoa-tree agroforestry patterns
Shade trees are used in agroforestry pattern for production and service aspects. Cocoa-tree agroforestry pattern is expected to improve atmospheric and rhizosphere zone in cacao plantations. However, the information related to this is still quite limited. This study was conducted using a nested design, with types of shade trees as nest. Shade trees used were Falcataria moluccana, Cocos nucifera, and Cassia spectabilis, and without shade was used as control. Variables observed were light, air temperature, humidity, soil temperature, soil texture, bulk density, permeability, and moisture content. Soil chemical properties were also observed, including organic C, pH, total N, P, K, Ca, Mg, B and content of available P, K, Ca, Mg, and B. The results showed that cacao agroforestry pattern using F. moluccana and C. spectabilis was able to improve the microclimate characteristics and soil fertility. However, F. moluccana showed lower soil fertility than C. spectabilis. F. moluccana and C. spectabilis shade trees were able to optimize light plants from 33 % to 34 %, and from 38 % to 39 %, respectively. F. moluccana could provide optimal air and soil temperature of 30 ⁰C to 32 ⁰C and 27 ⁰C, respectively. Meanwhile, C. spectabilis could provide optimal air and soil temperature of 29 ⁰C to 31⁰C and  26 ⁰C to 27 ⁰C, consecutively. Cocoa-tree agroforestry pattern using C. Spectabilis shade trees could optimize soil moisture content, pH, total N, and P, and availabilities of K, Ca, Mg, and B in soil.
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