Drainage effects on leaf traits of trees in tropical peat swamp forests in Central Kalimantan, Indonesia

IF 1 Q4 ECOLOGY Tropics Pub Date : 2019-06-01 DOI:10.3759/TROPICS.MS18-12
T. Ichie, Aogu Yoneyama, T. Hashimoto, Ayumi Tanaka‐Oda, K. Kusin, T. Kenzo
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引用次数: 4

Abstract

Large areas of the tropical peat swamp forests in Central Kalimantan were drained to be converted into rice fields and then abandoned. A change in the soil water level due to drainage in the forests must have had a big impact on the ecology and ecophysiology of the trees in the drained remnant forests. The leaf traits of these trees in particular may have been directly or indirectly affected by drainage because of their high sensitivity to environmental change. To understand the influence of drainage on leaf traits, we investigated leaf morphological and physiological differences between intact and drained peat swamp forests in Palangka Raya, Indonesia, using 14 species distributed over both types of forests. We compared the leaf mass per unit area (LMA), leaf toughness, leaf area- and mass-based nitrogen content (N area and N mass ), carbon/nitrogen ratio, total phenolics, condensed tannin and lignin content and carbon isotope ratio ( δ 13 C) of both types of forest trees. In the drained forest, trees had higher values in LMA, N area , and δ 13 C than in the intact forest, suggesting that such trees adjust themselves to dry conditions to increase photosynthetic ability with high water use efficiency compared with those in intact forests. We also found an increase in condensed tannin content in drained forest trees, which may offset the drainage-induced acceleration of leaf decomposition to some extent.
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排水对印度尼西亚加里曼丹中部热带泥炭沼泽森林树木叶片性状的影响
加里曼丹中部的大片热带泥炭沼泽森林被抽干,变成了稻田,然后被遗弃。由于森林排水而引起的土壤水位变化一定对排水残林中树木的生态和生态生理产生了很大的影响。由于这些树木对环境变化高度敏感,它们的叶片特征可能直接或间接地受到排水的影响。为了解排水对叶片性状的影响,研究了印度尼西亚Palangka Raya地区完整泥炭沼泽森林与排水泥炭沼泽森林叶片形态和生理差异。比较了两种树种单位面积叶质量(LMA)、叶片韧性、基于叶面积和质量的氮含量(N面积和N质量)、碳氮比、总酚类物质、缩合单宁和木质素含量以及碳同位素比值(δ 13 C)。枯水林的LMA、N面积和δ 13c值均高于完整林,表明枯水林对干旱环境进行了自我调节,提高了光合能力,水分利用效率高于完整林。我们还发现,在排水的森林树木中,浓缩单宁含量增加,这可能在一定程度上抵消了排水引起的叶片分解加速。
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来源期刊
Tropics
Tropics ECOLOGY-
CiteScore
1.40
自引率
0.00%
发文量
7
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