SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3150570014> ?p ?o ?g. }

Showing items 1 to 59 of 59 with 100 items per page.

W3150570014 abstract "Forest ecosystems attract a continuous attention because of their importance for mitigating environmental change. Policy making in the fields of sustainable forest management and agendas related to climate change drives the research on forest carbon budget and its interpretation. The recent adoption of the Kyoto Protocol further spurs the need of a sound understanding of carbon-related processes. There is a big challenge to accurately estimate the contribution of forest ecosystems to the global carbon cycle,as it is difficult to directly measure carbon pools or fluxes over large area. Some models are available to address the issues of carbon budget,and they may be classified into several ways. In terms of their capability to include the causality,the models can be either empirical regression models,or so-called process models including eco-physiological processes describing ecosystem functioning in terms of key processes with their interactions. The adopted simulation system may include all kinds of combinations of approaches to fulfill the modeling goals and create the specific model hybrids. In any case,the models developed based on the generalized approach to simulate ecosystem development must be parameterized for the target ecosystems. Regarding the estimation of carbon dynamics,the use of process-based ecosystem models is of particular interest because this approach allows not only to estimate the carbon budget under various environmental conditions,but also to interpret and quantify the possible causes of carbon stock change along with the environmental change.The application of ecosystem models,however,encounters some specific difficulties in dryland environment,which is characterized by its climatic and human-induced features. After identifying the proper ecophysiological parameters used in Biome-BGC model,in this study the NPP( net primary productivity) and NEP( net ecological productivity) in the Tianshan Mountains were estimated. Furthermore,the responses of NPP / NEP to interannual climate change during the period of 1959- 2009 and climate change scenarios in the future were modeled. Results showed that the average annual total NPP and NEP were 547. 97 g ·m- 2·a- 1and 61. 24 g ·m- 2·a- 1respectively,which revealed that the forests in the Tianshan Mountains perform as the carbon sinks. NPP and NEP were sensitive to the change of precipitation and the increase of air temperature. Under a scenario of 4 ℃ temperature increase,NPP was slightly improved,but NEP was decreased as soil respiration was boosted up. Drought stress was not significant in the study area as derived from the results." @default.
W3150570014 created "2021-04-13" @default.
W3150570014 creator A5022067975 @default.
W3150570014 date "2014-01-01" @default.
W3150570014 modified "2023-09-27" @default.
W3150570014 title "Simulation of Carbon Trend in Forest Ecosystem in Northern Slope of the Tianshan Mountains Based on Biome-BGC Model" @default.
W3150570014 hasPublicationYear "2014" @default.
W3150570014 type Work @default.
W3150570014 sameAs 3150570014 @default.
W3150570014 citedByCount "0" @default.
W3150570014 crossrefType "journal-article" @default.
W3150570014 hasAuthorship W3150570014A5022067975 @default.
W3150570014 hasConcept C107826830 @default.
W3150570014 hasConcept C110872660 @default.
W3150570014 hasConcept C132651083 @default.
W3150570014 hasConcept C18903297 @default.
W3150570014 hasConcept C39432304 @default.
W3150570014 hasConcept C64107356 @default.
W3150570014 hasConcept C6939412 @default.
W3150570014 hasConcept C73935091 @default.
W3150570014 hasConcept C86803240 @default.
W3150570014 hasConcept C89920630 @default.
W3150570014 hasConceptScore W3150570014C107826830 @default.
W3150570014 hasConceptScore W3150570014C110872660 @default.
W3150570014 hasConceptScore W3150570014C132651083 @default.
W3150570014 hasConceptScore W3150570014C18903297 @default.
W3150570014 hasConceptScore W3150570014C39432304 @default.
W3150570014 hasConceptScore W3150570014C64107356 @default.
W3150570014 hasConceptScore W3150570014C6939412 @default.
W3150570014 hasConceptScore W3150570014C73935091 @default.
W3150570014 hasConceptScore W3150570014C86803240 @default.
W3150570014 hasConceptScore W3150570014C89920630 @default.
W3150570014 hasLocation W31505700141 @default.
W3150570014 hasOpenAccess W3150570014 @default.
W3150570014 hasPrimaryLocation W31505700141 @default.
W3150570014 hasRelatedWork W187055800 @default.
W3150570014 hasRelatedWork W1976545818 @default.
W3150570014 hasRelatedWork W1989380064 @default.
W3150570014 hasRelatedWork W2001610600 @default.
W3150570014 hasRelatedWork W2060585907 @default.
W3150570014 hasRelatedWork W2107577415 @default.
W3150570014 hasRelatedWork W2111645678 @default.
W3150570014 hasRelatedWork W2113474957 @default.
W3150570014 hasRelatedWork W2141505345 @default.
W3150570014 hasRelatedWork W2226664329 @default.
W3150570014 hasRelatedWork W2331133122 @default.
W3150570014 hasRelatedWork W2357211813 @default.
W3150570014 hasRelatedWork W2361395461 @default.
W3150570014 hasRelatedWork W2367179094 @default.
W3150570014 hasRelatedWork W2385116748 @default.
W3150570014 hasRelatedWork W2519500032 @default.
W3150570014 hasRelatedWork W2564311868 @default.
W3150570014 hasRelatedWork W2750245258 @default.
W3150570014 hasRelatedWork W2947537386 @default.
W3150570014 hasRelatedWork W2960709247 @default.
W3150570014 isParatext "false" @default.
W3150570014 isRetracted "false" @default.
W3150570014 magId "3150570014" @default.
W3150570014 workType "article" @default.