森林扰动对土壤性质的影响:以缅甸孟邦为例

IF 1 Q4 ECOLOGY Tropics Pub Date : 2018-01-01 DOI:10.3759/TROPICS.MS16-18
Ei Thandar Bol, N. Tokuchi
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引用次数: 4

摘要

缅甸社区在各种用途上严重依赖森林,但对该国热带常绿森林的干扰研究很少。越来越需要评价与土壤条件有关的干扰后的反应,以便向所有管理机构通报可持续森林管理做法。本研究评估了森林干扰对缅甸热带常绿森林生态系统土壤性质的影响。在三种不同类型的森林扰动样地(1)迁移耕作(撂荒后≥15年)、2)滑坡(滑坡后20年)、3)选择性采伐(采伐后50 ~ 30年)和4)原生林(近80年无扰动记录)采集土壤样品,以确定森林扰动对土壤碳(C)、氮(N)、有效磷(AP)、pH和体积密度(BD)的影响。原生林土壤C、N和AP含量显著高于其他干扰林,而BD含量最低。除BD外,不同深度土壤性质差异不显著。选择性采伐区土壤的C、N和pH值最低,而轮作区土壤的AP可能严重耗竭。我们的研究结果证实,森林干扰可以改变土壤性质,并且不同类型的森林干扰的影响是不同的。在采伐期间,森林被砍烧开垦,被山体滑坡清除,并有选择地砍伐,废弃后,土壤条件决定了森林的恢复模式。根据我们的研究结果,30年以上的采伐周期对减轻影响至关重要
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Impact of forest disturbances on soil properties: a case study in Mon State, Myanmar
Communities in Myanmar rely heavily on forests for various uses, but there have been few studies on disturbance to tropical evergreen forests in the country. There is a growing need to evaluate the responses after disturbances relating to soil condition to inform sustainable forest management practices to all regulating agencies. This study assessed the impact of forest disturbances on soil properties in a tropical evergreen forest ecosystem in Myanmar. Soil samples were collected from the sites with three different types of forest disturbance, namely 1) shifting cultivation (≥15 years post-abandonment), 2) landslide (20 years post-landslide), 3) selective logging ( > 30 years post-logging), and 4) old growth forest (no recorded history of disturbance over the last 80 years), to determine the effects of forest disturbances on soil carbon (C), nitrogen (N), available phosphorus (AP), pH, and bulk density (BD). Soil C, N, and AP concentrations were significantly higher in old growth forest soils than in the other disturbed forests, while BD was lowest in old growth forest soils. There were no significant differences in soil properties between soil depths, except in BD. Selective logging area soils had the lowest C, N, and pH values, and AP may be severely depleted in areas of shifting cultivation. Our results confirm that forest disturbances can alter soil properties and that the impacts differ among forest disturbance types. Forest areas were slashed and burned for cultivation, cleared by landslides, and selectively logged during harvesting time, and after abandonment, the soil conditions determined the recovery pattern of the forest. According to our results, a logging cycle of more than 30 years is essential to mitigate the influences
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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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