SOIL CARBON SEQUESTRATION AND STOCKS FOLLOWING LAND-USE TYPES CHANGE

被引：0

作者：

Kutova, Angela ^{[1
]}

Shediei, Larysa ^{[1
]}

Skrylnik, Ievgen ^{[1
]}

Mykhaylyn, Volodymyr ^{[2
]}

Semenenko, Ivan ^{[2
]}

机构：

[1] NSC Inst Soil Sci & Agrochem Res, 4 Chaykovska St, UA-61024 Kharkiv, Ukraine

[2] Inst Vegetables & Melons Growing, 1 Inst Ska St, UA-62478 Kharkiv Dist, Kharkiv Region, Ukraine

来源：

SCIENTIFIC PAPERS-SERIES A-AGRONOMY | 2024年 / 67卷 / 01期

关键词：

soil organic carbon; land use types; application of fertilizers; stocks of soil carbon; ORGANIC-MATTER; SATURATION;

D O I：

暂无

中图分类号：

S3 [农学（农艺学）];

学科分类号：

0901 ;

摘要：

The influence of agricultural activities on virgin soils leads to the loss of organic carbon, which leads to degradation processes in the soil ecosystem. This paper & ocy;n the example of a Typical Chernozem, the content and stock of organic carbon in virgin soils (fallow, mottled virgin soil, absolute virgin soil) and arable soil was studied. Study was conducted in long-term field experiments with the cultivation of vegetable and grain agricultural crops and on the territory of the << Mykhailivska Tsilyna >> conservation in Forest-Steppe zone of Ukraine. We was discuss the main factors influencing soil carbon sequestration following land-use change. It has been established that there is a stabilization level of carbon content for each type of land use, and approximate levels of absorption by the soil, which are possible under management, have been calculated

引用

页码：129 / 135

页数：7

共 14 条

[1] The role of soil carbon in natural climate solutions [J].

Bossio, D. A. ;

Cook-Patton, S. C. ;

Ellis, P. W. ;

Fargione, J. ;

Sanderman, J. ;

Smith, P. ;

Wood, S. ;

Zomer, R. J. ;

von Unger, M. ;

Emmer, I. M. ;

Griscom, B. W. .

NATURE SUSTAINABILITY, 2020, 3 (05) :391-398

[2] METHODS FOR PHYSICAL SEPARATION AND CHARACTERIZATION OF SOIL ORGANIC-MATTER FRACTIONS [J].

CAMBARDELLA, CA ;

ELLIOTT, ET .

GEODERMA, 1993, 56 (1-4) :449-457

[3]

Didora V. G, 2010, Bulletin of Agricultural Science, V12, P48

[4]

Doetterl S, 2015, NAT GEOSCI, V8, P780, DOI [10.1038/NGEO2516, 10.1038/ngeo2516]

[5]

Food and Agriculture Organization of the United Nations Rome Italy, 2019, AgroChemistry and Soil Science, P5, DOI [10.31073/acss88-01, 10.31073/acss88-01]

[6] The capacity of soils to preserve organic C and N by their association with clay and silt particles [J].

Hassink, J .

PLANT AND SOIL, 1997, 191 (01) :77-87

[7] Managing carbon sequestration in soils: concepts and terminology [J].

Ingram, JSI ;

Fernandes, ECM .

AGRICULTURE ECOSYSTEMS & ENVIRONMENT, 2001, 87 (01) :111-117

[8] Carbon sequestration in soil [J].

Lal, Rattan ;

Negassa, Wakene ;

Lorenz, Klaus .

CURRENT OPINION IN ENVIRONMENTAL SUSTAINABILITY, 2015, 15 :79-86

[9] Organic Carbon and Aggregate Stability of Three Contrasting Soils as Affected by Arable Agriculture and Improved Pasture in Northern KwaZulu-Natal, South Africa [J].

Mbanjwa, Vusumuzi E. ;

Hughes, Jeffrey C. ;

Muchaonyerwa, Pardon .

JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION, 2022, 22 (02) :2378-2391

[10] Carbon saturation drives spatial patterns of soil organic matter losses under long-term bare fallow [J].

Meyer, N. ;

Bornemann, L. ;

Welp, G. ;

Schiedung, H. ;

Herbst, M. ;

Amelung, W. .

GEODERMA, 2017, 306 :89-98

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