Changes in soil chemical properties and their spatial distribution after logging and conversion to oil palm plantation in Sabah (Borneo)

IF 1 4区环境科学与生态学 Q4 ECOLOGY

Journal of Tropical Ecology Pub Date : 2023-01-01 DOI:10.1017/s026646742300024x

Trevan Flynn, Jiri Tuma, Tom M Fayle, Hana Veselá, Jan Frouz

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引用次数: 0

Abstract

Abstract Conversion of primary forest into oil palm plantations is common in tropical countries, affecting soil properties, ecosystem services and land-use management. However, little is known about the short-range spatial soil distribution that is important for soil scientists, ecologists, entomologists, mycologists or microbiologists. In this study, seven soil properties (pH, EC (µS/m), P (mg/kg), NO 3 - (mg/kg), N%, C% and C:N) were measured to quantify the spatial autocorrelation across primary forest, selectively logged forest and oil palm plantation in Sabah, Malaysian Borneo. Local variograms were calculated (range ∼5 m) to determine the short-range variation, and a decision tree as well as principal component analysis were implemented to determine if the overall (global) mean differed between land uses. As hypothesised, oil palm soils deviated the most from primary forest soils, which had more fluctuating variograms and in general, a shorter range. Oil palm plantations also showed a difference in the global mean except for electrical conductivity. Selectively logged forests also differed in their short-range spatial structure; however, the global mean and variance remained similar to primary forest soil with the exception of labile phosphorus and nitrate. These results were attributed to initial plantation development, removal of topsoil, fertiliser application and topography.

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沙巴(婆罗洲)采伐和改种油棕后土壤化学性质的变化及其空间分布

在热带国家，将原始森林转变为油棕种植园是很常见的，这会影响土壤性质、生态系统服务和土地利用管理。然而，对于土壤科学家、生态学家、昆虫学家、真菌学家或微生物学家来说，土壤的短期空间分布却知之甚少。本研究通过测定马来西亚婆罗洲沙巴州原生林、选择性采伐林和油棕人工林的pH、EC(µS/m)、P (mg/kg)、no3 - (mg/kg)、N%、C%和C:N等7个土壤性状，量化其空间自相关性。计算局部变异图(范围~ 5 m)以确定短期变化，并实施决策树和主成分分析以确定总体(全球)平均值在土地利用之间是否存在差异。正如假设的那样，油棕土壤与原始森林土壤偏差最大，原始森林土壤具有更多的波动变量，通常范围更短。除了电导率外，油棕种植园也显示出全球平均值的差异。选择性采伐林在近程空间结构上也存在差异;除活性磷和硝态氮外，全球平均值和方差与原始森林土壤相似。这些结果归因于最初的人工林发展、表土的去除、施肥和地形。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Tropical Ecology 环境科学-生态学

CiteScore

2.10

自引率

0.00%

发文量

审稿时长

18-36 weeks

期刊介绍： Journal of Tropical Ecology aims to address topics of general relevance and significance to tropical ecology. This includes sub-disciplines of ecology, such as conservation biology, evolutionary ecology, marine ecology, microbial ecology, molecular ecology, quantitative ecology, etc. Studies in the field of tropical medicine, specifically where it involves ecological surroundings (e.g., zoonotic or vector-borne disease ecology), are also suitable. We also welcome methods papers, provided that the techniques are well-described and are of broad general utility. Please keep in mind that studies focused on specific geographic regions or on particular taxa will be better suited to more specialist journals. In order to help the editors make their decision, in your cover letter please address the specific hypothesis your study addresses, and how the results will interest the broad field of tropical ecology. While we will consider purely descriptive studies of outstanding general interest, the case for them should be made in the cover letter.