Reviews and syntheses: Greenhouse gas emissions from drained organic forest soils – synthesizing data for site-specific emission factors for boreal and cool temperate regions

IF 3.9 2区 地球科学 Q1 ECOLOGY Biogeosciences Pub Date : 2023-12-07 DOI:10.5194/bg-20-4819-2023
J. Jauhiainen, Juha Heikkinen, Nicholas Clarke, Hongxing He, Lise Dalsgaard, K. Minkkinen, P. Ojanen, L. Vesterdal, Jukka Alm, A. Butlers, I. Callesen, Sabine Jordan, A. Lohila, Ü. Mander, H. Óskarsson, B. Sigurdsson, Gunnhild Søgaard, K. Soosaar, Å. Kasimir, B. Bjarnadóttir, A. Lazdiņš, R. Laiho
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Abstract

Abstract. We compiled published peer-reviewed CO2, CH4, and N2O data on managed drained organic forest soils in boreal and temperate zones to revisit the current Tier 1 default emission factors (EFs) provided in the IPCC (2014) Wetlands Supplement: to see whether their uncertainty may be reduced; to evaluate possibilities for breaking the broad categories used for the IPCC EFs into more site-type-specific ones; and to inspect the potential relevance of a number of environmental variables for predicting the annual soil greenhouse gas (GHG) balances, on which the EFs are based. Despite a considerable number of publications applicable for compiling EFs being added, only modest changes were found compared to the Tier 1 default EFs. However, the more specific site type categories generated in this study showed narrower confidence intervals compared to the default categories. Overall, the highest CO2 EFs were found for temperate afforested agricultural lands and boreal forestry-drained sites with very low tree stand productivity. The highest CH4 EFs in turn prevailed in boreal nutrient-poor forests with very low tree stand productivity and temperate forests irrespective of nutrient status, while the EFs for afforested sites were low or showed a sink function. The highest N2O EFs were found for afforested agricultural lands and forestry-drained nutrient-rich sites. The occasional wide confidence intervals could be mainly explained by single or a few highly deviating estimates rather than the broadness of the categories applied. Our EFs for the novel categories were further supported by the statistical models connecting the annual soil GHG balances to site-specific soil nutrient status indicators, tree stand characteristics, and temperature-associated weather and climate variables. The results of this synthesis have important implications for EF revisions and national emission reporting, e.g. by the use of different categories for afforested sites and forestry-drained sites, and more specific site productivity categories based on timber production potential.
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评论与综述:排水有机森林土壤的温室气体排放--综合北寒带和寒温带地区特定地点排放因子的数据
摘要。我们汇编了已发表的同行评审的关于北温带和温带管理排水有机森林土壤的CO2、CH4和N2O数据,以重新审视IPCC(2014)湿地补编中提供的当前一级默认排放因子(EFs):看看它们的不确定性是否可以降低;评估是否有可能将政府间气候变化专门委员会环境影响评估所用的广泛类别划分为更具体的地点类型;并检查一些环境变量与预测年土壤温室气体(GHG)平衡的潜在相关性,这是EFs的基础。尽管增加了大量适用于编译EFs的出版物,但与第1层默认EFs相比,只发现了适度的变化。然而,与默认类别相比,本研究中生成的更具体的网站类型类别显示出更窄的置信区间。总体而言,温带造林农用地和林分生产力极低的北方森林排水地的CO2效应最高。无论营养状况如何,最高的CH4 EFs均出现在林分生产力极低的北方营养贫乏森林和温带森林中,而造林场地的CH4 EFs则较低或具有汇功能。N2O EFs最高的是造林农用地和森林排水富营养点。偶尔出现的宽置信区间主要可以用单个或几个高度偏离的估计来解释,而不是用广泛的应用类别来解释。将年度土壤温室气体平衡与特定地点土壤养分状况指标、林分特征以及与温度相关的天气和气候变量联系起来的统计模型进一步支持了我们对新类别的预测。这种综合的结果对生态环境订正和国家排放报告具有重要意义,例如,对造林场地和森林排水场地使用不同的类别,以及根据木材生产潜力更具体的场地生产力类别。
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来源期刊
Biogeosciences
Biogeosciences 环境科学-地球科学综合
CiteScore
8.60
自引率
8.20%
发文量
258
审稿时长
4.2 months
期刊介绍: Biogeosciences (BG) is an international scientific journal dedicated to the publication and discussion of research articles, short communications and review papers on all aspects of the interactions between the biological, chemical and physical processes in terrestrial or extraterrestrial life with the geosphere, hydrosphere and atmosphere. The objective of the journal is to cut across the boundaries of established sciences and achieve an interdisciplinary view of these interactions. Experimental, conceptual and modelling approaches are welcome.
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