Soil organic matter dynamics after C<sub>3</sub>-C<sub>4</sub> vegetation change of red soil in Southern, China: evidence from natural 13C abundance.

Liu Q. M.; Cao Y. L.; Huang Y. F.; Zhang Y. P.; Lin J. Q.; Lin J. M.; Xu L. S.

首页> 外文期刊>Contemporary Problems of Ecology >Soil organic matter dynamics after C₃-C₄ vegetation change of red soil in Southern, China: evidence from natural 13C abundance.

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Soil organic matter dynamics after C₃-C₄ vegetation change of red soil in Southern, China: evidence from natural 13C abundance.

机译：中国南方红壤C _{3 -C _{4 植被变化后的土壤有机质动态：来自自然 13 C含量的证据。}}

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Soil samples from natural forests and adjacent farmland were analyzed to investigate the dynamics of soil organic matter of red soil in Southern, China. Based on the delta 13C values and the content of soil organic matter, the data indicated that the turnover of soil organic matter under the virgin forest was slower than that under cultivation. Soil organic matter is fresh in coarse sand and oldest in fine silt and clay. Also, the soil light fraction contained the younger organic matter than soil heavy fraction and bulk soil. Deforestation has accelerated the decomposition rate of soil organic matter and reduced the proportion of active components in SOM and thus soil fertility.Digital Object Identifier http://dx.doi.org/10.1134/S1995425513050077

机译：分析了天然林和邻近农田的土壤样品，以研究中国南方红壤的土壤有机质动态。根据δ 13 C值和土壤有机质含量，数据表明，原始森林下土壤有机质的周转速度比人工林要慢。土壤有机质在粗砂中是新鲜的，而在细粉砂和粘土中是最古老的。而且，土壤轻质部分比土壤重质部分和块状土壤包含年轻的有机物。森林砍伐加快了土壤有机质的分解速度，降低了土壤有机质中有效成分的比例，从而降低了土壤肥力。数字对象标识符http://dx.doi.org/10.1134/S1995425513050077

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来源
《Contemporary Problems of Ecology》 |2013年第5期|共7页
作者
Liu Q. M.; Cao Y. L.; Huang Y. F.; Zhang Y. P.; Lin J. Q.; Lin J. M.; Xu L. S.;
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正文语种 eng
中图分类普通生物学;
关键词
red soil; carbon dynamics; soil organic matter (SOM); δ13C values;

机译：红壤;碳动力学;土壤有机质（SOM）;δ13C值;

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1. Soil organic matter dynamics after C₃-C₄ vegetation change of red soil in Southern, China: evidence from natural 13C abundance. [J] . Liu Q. M., Cao Y. L., Huang Y. F., Contemporary Problems of Ecology . 2013,第5期

机译：中国南方红壤C _{3 -C _{4 植被变化后的土壤有机质动态：来自自然 13 C含量的证据。}}
2. Recent vegetation changes in central Queensland, Australia: evidence from delta 13C and 14C analyses of soil organic matter. [J] . Krull E S, Skjemstad J O, Burrows W H, Geoderma: An International Journal of Soil Science . 2005,第3a4期

机译：澳大利亚昆士兰州中部最近的植被变化：来自土壤有机质的13C和14C三角分析的证据。
3. Soil organic matter dynamics along a rice chronosequence in north-eastern Argentina: evidence from natural 13C abundance and particle size fractionation. [J] . Desjardins T, Folgarait P J, Pando Bahuon A, Soil Biology & Biochemistry . 2006,第9期

机译：阿根廷东北部水稻按时间顺序的土壤有机质动态：天然13 C丰度和粒度分级的证据。
4. Dynamics and fate of natural and waste organic material in soils: the role of the soil organic matter (SOM) recalcitrance in SOM turnover [C] . Fabrizio Adani, Gabriella Papa, Fulvia Tambone World Congress of Soil Science . 2011

机译：土壤中天然垃圾有机材料的动态与命运：土壤有机物（SOM）重新分析在SOM营业额中的作用
5. Soil Organic Matter of Natural and Restored Coastal Wetland Soils in Southern California [D] . Elgin, Barbara K. 2012

机译：南加州天然和恢复的沿海湿地土壤的有机质
6. Changes in phosphorus fractions associated with soil chemical properties under long-term organic and inorganic fertilization in paddy soils of southern China [O] . Waqas Ahmed, Huang Jing, Liu Kaillou, 2015

机译：南方水稻土长期有机无机肥配施过程中磷组分与土壤化学性质的变化
7. δ13C variation of soil organic matter as an indicator of vegetation change during the Holocene in central Cameroon [O] . Desjardins Thierry, Turcq Bruno, Nguetnkam Jean-Pierre, 2013

机译：喀麦隆中部全新世时期土壤有机质的δ 13 C变化作为植被变化的指标
8. Assessing the Vegetation History of Three Southern Appalachian Balds through Soil211 Organic Matter Analysis [R] . Knoepp, J. D., Tieszen, L. L., Fredlund, G. G. 1998

机译：利用土壤211有机物分析评价南阿巴拉契亚三种植被的植被史

Soil organic matter dynamics after C3-C4 vegetation change of red soil in Southern, China: evidence from natural 13C abundance.

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Soil organic matter dynamics after C₃-C₄ vegetation change of red soil in Southern, China: evidence from natural 13C abundance.