The annual net flux of carbon to the atmosphere from changes in land use 1850–1990*

IF 2.3 4区地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES

Tellus Series B-Chemical and Physical Meteorology Pub Date : 1999-04-01 DOI:10.3402/TELLUSB.V51I2.16288

R. Houghton

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引用次数: 800

Abstract

Rates of land-use change, including clearing for agriculture and harvest of wood, were reconstructed from statistical and historic documents for 9 world regions and used, along with the per ha changes in vegetation and soil that result from land management, to calculate the annual flux of carbon between land and atmosphere. Between 1850 and 1990, changes in land use are calculated to have added 124 PgC to the atmosphere, about half as much as released from combustion of fossil fuels over this period. About 108 PgC are estimated to have been transferred from forests to the atmosphere as a result of human activity, 2/3 from tropical forests and 1/3 from temperate zone and boreal forests. Another 16 PgC were lost from non-forests, largely as a result of cultivation of mid-latitude grassland soils. About 800 × 10 6 ha of forest were cleared for agricultural purposes, and approximately 2000 × 10 6 ha were harvested. Conversion of forests to agricultural lands released 105 PgC; harvest of wood released about 20 PgC. These estimates of release include the accumulations of carbon in wood products (17 PgC) and woody debris (4 PgC), the losses of carbon from oxidation of wood products, woody debris, and soil organic matter (373 PgC in total), and the accumulations of carbon in forests recovering from harvest and in the fallows of shifting cultivation (249 PgC). Over the decade of the 1980s the annual net flux of carbon from changes in land use averaged about 2.0 PgC yr −1 , higher than the 1.6 PgC yr −1 estimated previously. Almost all of this flux was from tropical regions, where rates of deforestation averaged approximately 15 × 10 6 ha yr −1 . Outside the tropics, regrowth of forests logged in earlier years largely balanced the losses of carbon from oxidation of wood products. DOI: 10.1034/j.1600-0889.1999.00013.x

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1850-1990年土地利用变化每年向大气的净碳通量*

根据9个世界区域的统计和历史文件重建了土地利用变化率，包括开垦农业用地和砍伐木材，并将其与土地管理导致的每公顷植被和土壤变化一起用于计算土地和大气之间的年碳通量。据计算，在1850年至1990年间，土地利用的变化向大气中增加了124种PgC，大约是同期化石燃料燃烧释放的PgC的一半。据估计，由于人类活动，大约有108种PgC从森林转移到大气中，其中2/3来自热带森林，1/3来自温带和北方森林。另外16个PgC来自非森林，主要是由于中纬度草地土壤的种植。大约800 × 10.6公顷的森林被砍伐用于农业，大约2000 × 10.6公顷的森林被采伐。退耕还林释放105 PgC;收获的木材释放约20 PgC。这些释放估计包括木制品(17 PgC)和木屑(4 PgC)中的碳积累，木制品、木屑和土壤有机质氧化导致的碳损失(总共373 PgC)，以及采伐后恢复的森林和轮作休耕地中的碳积累(249 PgC)。在20世纪80年代的十年中，土地利用变化产生的年净碳通量平均约为2.0 PgC /年，高于先前估计的1.6 PgC /年。几乎所有这些通量都来自热带地区，那里的森林砍伐率平均约为15 × 106公顷/年。在热带地区以外，早期砍伐的森林的再生在很大程度上平衡了木材产品氧化造成的碳损失。DOI: 10.1034 / j.1600-0889.1999.00013.x

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来源期刊

Tellus Series B-Chemical and Physical Meteorology 地学-气象与大气科学

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期刊介绍： Tellus B: Chemical and Physical Meteorology along with its sister journal Tellus A: Dynamic Meteorology and Oceanography, are the international, peer-reviewed journals of the International Meteorological Institute in Stockholm, an independent non-for-profit body integrated into the Department of Meteorology at the Faculty of Sciences of Stockholm University, Sweden. Aiming to promote the exchange of knowledge about meteorology from across a range of scientific sub-disciplines, the two journals serve an international community of researchers, policy makers, managers, media and the general public.