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Characterization of Some Typical Soils of the Miombo Woodland Ecosystem of Kitonga Forest Reserve, Iringa, Tanzania: Physico-Chemical Properties and Classification 被引量:1
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作者 Hassan Bashiru Shelukindo Balthazar Msanya +3 位作者 Ernest Semu Sibaway Mwango Bal Ram Singh Pantaleo Munishi 《Journal of Agricultural Science and Technology(A)》 2014年第3期224-234,共11页
Despite the fact that miombo woodland soils have significant implications in global climate change processes, few studies have been done to characterize and classify the soils of the miombo woodland ecosystem of Tanza... Despite the fact that miombo woodland soils have significant implications in global climate change processes, few studies have been done to characterize and classify the soils of the miombo woodland ecosystem of Tanzania. The current study was carried out to map and classify soils of Kitonga Forest Reserve, which is a typical miombo woodland ecosystem, in order to generate relevant information for their use and management. A representative study area of 52 km2 was selected and mapped at a scale of 1:50,000 on the basis of relief. Ten representative soil profiles were excavated and described using standard methods. Soil samples were taken from genetic soil horizons and analyzed in the laboratory for physico-chemical characteristics using standard methods. Using field and laboratory analytical data, the soils were classified according to the FAO-World Reference Base (FAO-WRB) for Soil Resources system as Cambisols, Leptosols and Fluvisols. In the USDA-NRCS Soil Taxonomy system the soils were classified as Inceptisols and Entisols. Topographical features played an important role in soil formation. The different soil types differed in physico-chemical properties, hence exhibit differences in their potentials, constraints and need specific management strategies. Texture varied from sandy to different loams; pH from 5.1 to 5.9; organic carbon from 0.9 g/kg to 20 g/kg; and CEC from 3 cmol/(+)kg to 24 cmol/(+)kg. Sustainable management of miombo woodlands ecosystem soils requires reduced deforestation and reduced land degradation. 展开更多
关键词 Miombo woodlands soil properties soil classification Kitonga Forest Reserve Tanzania.
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陆地生态系统土壤有机碳分解温度敏感性研究进展 被引量:4
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作者 朱珠 徐侠 +3 位作者 杨赛兰 彭凡茜 张惠光 蔡斌 《南京林业大学学报(自然科学版)》 CAS CSCD 北大核心 2022年第1期33-39,共7页
在全球变化背景下,土壤有机碳的分解及其温度敏感性在陆地生态系统碳循环中的重要性备受关注。温度敏感性指数(Q_(10))微小的变化都可能导致未来土壤碳库大小评估的巨大偏差,充分了解土壤有机碳分解温度敏感性的调控机理对预测未来土壤... 在全球变化背景下,土壤有机碳的分解及其温度敏感性在陆地生态系统碳循环中的重要性备受关注。温度敏感性指数(Q_(10))微小的变化都可能导致未来土壤碳库大小评估的巨大偏差,充分了解土壤有机碳分解温度敏感性的调控机理对预测未来土壤碳变化具有重要意义。笔者对国内外已有研究进行分析,比较培养温度模式、底物质量、物理化学保护和微生物属性对土壤有机碳分解温度敏感性的影响。结果发现:(1)与传统的恒温模式相比,变温培养模式更好地克服了土壤微生物对恒定培养温度的适应性以及不同培养温度下底物消耗不均的缺点,能够更加准确地估算Q_(10)。(2)较多的研究发现难分解有机碳的Q_(10)大于易分解有机碳的Q_(10),但也有研究发现难分解有机碳的Q_(10)并不比易分解有机碳的Q_(10)高,这主要是由于土壤有机碳库的异质性造成的。(3)团聚体和矿物吸附保护通过改变底物有效性或者反应位点的底物浓度来影响土壤有机碳分解的温度敏感性。(4)微生物的生理特性、群落组成和结构也会对温度敏感性造成影响,温度变化会造成土壤微生物群落组成及其相关生理特征的变化,进一步引起相关功能基因丰度的改变,从而改变有机碳分解的温度敏感性。土壤有机碳分解及其温度敏感性是全球气候变化对碳循环影响研究中很重要的一部分,对它的精确估算有利于完善全球气候变化模型,对准确预测未来全球气候变化具有重要意义。 展开更多
关键词 土壤有机碳分解 温度敏感性 培养模式 底物质量 物理化学保护 微生物属性
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