As the integration point of urban blue-green spaces,wetland parks play an important role in the construction of urban carbon pools.It is of great significance for achieving carbon neutrality and peak carbon emissions ...As the integration point of urban blue-green spaces,wetland parks play an important role in the construction of urban carbon pools.It is of great significance for achieving carbon neutrality and peak carbon emissions by reasonably evaluating the carbon sequestration capacity of wetland parks and optimizing wetland structure.In this paper,Guangzhou wetland park is taken as the research object.Through field research,the carbon sequestration potential of ecosystems at multiple levels,including forest vegetation,seedlings,and wetland ecosystems is studied,and policy recommendations are put forward for carbon sequestration in wetland systems.The results show that the annual carbon sequestration capacity of the wetland is 1296.59 t,and the annual net carbon sequestration value is 100485 yuan.Among the three regions,proportions of annual carbon sequestration of the forest vegetation plate,seedling plate,and wetland ecosystem plate account for 28.4%,41.3%,and 30.3%,respectively.展开更多
Control of desertification can not only ameliorate the natural environment of arid regions but also convert desertified land into significant terrestrial carbon sinks,thereby bolstering the carbon sequestration capaci...Control of desertification can not only ameliorate the natural environment of arid regions but also convert desertified land into significant terrestrial carbon sinks,thereby bolstering the carbon sequestration capacity of arid ecosystems.However,longstanding neglect of the potential carbon sink benefits of desertification management,and its relationship with environmental factors,has limited the exploration of carbon sequestration potential.Based on CO_(2) flux and environmental factors of artificial protective forest in the Taklamakan Desert from 2018 to 2019,we found that the carbon storage capacity of the desert ecosystem increased approximately 140-fold after the establishment of an artificial shelter forest in the desert,due to plant photosynthesis.Precipitation levels less than 2 mm had no impact on carbon exchange in the artificial shelter forest,whereas a precipitation level of approximately 4 mm stimulated a decrease in the vapor pressure deficit over a short period of about three days,promoting photosynthesis and enhancing the carbon absorption of the artificial shelter forest.Precipitation events greater than 8 mm stimulated soil respiration to release CO_(2) and promoted plant photosynthesis.In the dynamic equilibrium where precipitation stimulates both soil respiration and photosynthesis,there is a significant threshold value of soil moisture at 5 cm(0.12 m^(3) m^(-3)),which can serve as a good indicator of the strength of the stimulatory effect of precipitation on both.These results provide important data support for quantifying the contribution of artificial afforestation to carbon sequestration in arid areas,and provide guidance for the development and implementation of artificial forest management measures.展开更多
文摘As the integration point of urban blue-green spaces,wetland parks play an important role in the construction of urban carbon pools.It is of great significance for achieving carbon neutrality and peak carbon emissions by reasonably evaluating the carbon sequestration capacity of wetland parks and optimizing wetland structure.In this paper,Guangzhou wetland park is taken as the research object.Through field research,the carbon sequestration potential of ecosystems at multiple levels,including forest vegetation,seedlings,and wetland ecosystems is studied,and policy recommendations are put forward for carbon sequestration in wetland systems.The results show that the annual carbon sequestration capacity of the wetland is 1296.59 t,and the annual net carbon sequestration value is 100485 yuan.Among the three regions,proportions of annual carbon sequestration of the forest vegetation plate,seedling plate,and wetland ecosystem plate account for 28.4%,41.3%,and 30.3%,respectively.
基金jointly supported by the Natural Science Foundation of Xinjiang Uygur Autonomous Region(Grant No.2022D01E104)the National Natural Science Foundation General Project(Grant No.41975010)+1 种基金the China Post doctoral Science Foundation(Grant No.2022MD723851)the Scientific and Technological Innovation Team(Tianshan Innovation Team)project(Grant No.2022TSYCTD0007).
文摘Control of desertification can not only ameliorate the natural environment of arid regions but also convert desertified land into significant terrestrial carbon sinks,thereby bolstering the carbon sequestration capacity of arid ecosystems.However,longstanding neglect of the potential carbon sink benefits of desertification management,and its relationship with environmental factors,has limited the exploration of carbon sequestration potential.Based on CO_(2) flux and environmental factors of artificial protective forest in the Taklamakan Desert from 2018 to 2019,we found that the carbon storage capacity of the desert ecosystem increased approximately 140-fold after the establishment of an artificial shelter forest in the desert,due to plant photosynthesis.Precipitation levels less than 2 mm had no impact on carbon exchange in the artificial shelter forest,whereas a precipitation level of approximately 4 mm stimulated a decrease in the vapor pressure deficit over a short period of about three days,promoting photosynthesis and enhancing the carbon absorption of the artificial shelter forest.Precipitation events greater than 8 mm stimulated soil respiration to release CO_(2) and promoted plant photosynthesis.In the dynamic equilibrium where precipitation stimulates both soil respiration and photosynthesis,there is a significant threshold value of soil moisture at 5 cm(0.12 m^(3) m^(-3)),which can serve as a good indicator of the strength of the stimulatory effect of precipitation on both.These results provide important data support for quantifying the contribution of artificial afforestation to carbon sequestration in arid areas,and provide guidance for the development and implementation of artificial forest management measures.
