2019
DOI: 10.3233/jcc190005
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Modelling Forest Stand Biomass and Net Primary Production with the Focus on Additive Models Sensitive to Climate Variables for Two-needled Pines in Eurasia

Abstract: Modelling forest biomass sensitive to climate change is fulfilled at the levels as forest stands and singletrees, but mostly on a local or regional level, often without regard to the age, morphology of the forest stands and species composition. With this, it does not provide additive component composition, according to which the total of biomass components (stems, branches, needles, and roots), obtained by component equations, would be equal to the value of the biomass obtained by the general equation. The inf… Show more

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Cited by 10 publications
(7 citation statements)
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“…The finding is consistent with the increase in relative radial increment of boreal forests in Canada if both mean annual temperature and annual precipitation increase (Miao & Li 2011). However, this trend does not correspond to the results obtained using similar models for biomass quantification in two-needled pine forests of Eurasia (Usoltsev et al 2019b). The pine models manifested different trends, since in cold zones (Tm = −20°C) precipitation increase leads to a decrease of biomass, while in warm zones (Tm = 10°C) to their increase, with the exception of root biomass.…”
Section: Discussionsupporting
confidence: 50%
“…The finding is consistent with the increase in relative radial increment of boreal forests in Canada if both mean annual temperature and annual precipitation increase (Miao & Li 2011). However, this trend does not correspond to the results obtained using similar models for biomass quantification in two-needled pine forests of Eurasia (Usoltsev et al 2019b). The pine models manifested different trends, since in cold zones (Tm = −20°C) precipitation increase leads to a decrease of biomass, while in warm zones (Tm = 10°C) to their increase, with the exception of root biomass.…”
Section: Discussionsupporting
confidence: 50%
“…Another character of differences of birch biomass and NPP is with two-needled pine ones (Usoltsev et al, 2019a): in the conditions of warm shortage with sufficient moisture supply (Northern Siberia' regions), an air temperature increase leads to an increase in the productivity of stands of pines, but an increase in precipitation leads to its decrease. In conditions of moisture deficiency with sufficient warm supply (steppe part of Central Asia), the temperature increase causes a decrease in productivity, and the increase in precipitation, on the contrary, its increase.…”
Section: Discussionmentioning
confidence: 99%
“…The influence of temperature and precipitation on the NPP change of tree species with accounting for stand age, morphology, and species composition has been studied at global or trans-continental level very seldom and in relation to coniferous species only (Usoltsev et al, 2019a). Hence, the purpose of this study was to develop a model of NPP change in birch (Betula spp.)…”
Section: Introductionmentioning
confidence: 99%
“…This approach offers rapid and convenient conditions to facilitate the development of stand biomass models. Nonetheless, compared to studies on individual tree biomass models, there are still relatively few tree species and areas available [30,31].…”
Section: Introductionmentioning
confidence: 99%