Spatialtemporal Evolution of Ecological Spatial Network Structure in Western Handan Region and Its Correlation with Carbon Sequestration Function

The construction of ecological spatial networks is a common method used to optimize the regional landscape structure and enhance ecosystem service functions. However, the relationship between the structure of ecological spatial networks and specific ecosystem service functions is still rarely explored. Based on multi-source remote sensing data products and with the western region of Handan as the study area, the spatiotemporal evolution characteristics of carbon sequestration function and ecological spatial networks were analyzed, and the correlation between the topological structure characteristics of ecological spatial networks and carbon sequestration function was studied. The results showed that from 2000 to 2020, the average NPP value in the study area was 2.17×108 kg/(m2·a), which showed a significant upward trend. The overall connectivity of the ecological spatial network in the study area was high, with a clear community structure and an extreme level of unevenness. The connectivity of the network was basically stable during the research period, but the heterogeneity was slighted increased. There was a significant positive correlation between the network’s topological indicators and their carbon sequestration function in the study area. Among them, the correlation of node betweenness was the most significant, followed by PageRank and degree. These three indicators may be potential effective indicators for judging the carbon sequestration function of nodes in ecological spatial networks. The research results had important reference value for the construction and optimization of ecological spatial networks and the improvement of regional carbon sequestration function.

 

Keywords:ecological spatial network, spatialtemporal evolution, carbon sequestration function, correlation, western Handan region

 

ZHANG Qibin, LI Qian. Evolution of ecological spatial network structure in sand-prevention belts of Inner Mongolia, Northern China[J]. Journal of Beijing Forestry University, 2023, 45 (9) ; 116 - 126. (in Chinese)

SHI Q, QIANG Y, TENG N, et al. Restoration and renewal of ecological spatial network in mining cities for the purpose of enhancing carbon sinks; the case of Xuzhou, China [J] . Ecological Indicators, 2022, 143( 1 ) ; 109313.

XU X, WANG S, RONG W. Construction of ecological network in Suzhou based on the PLUS and MSPA models [ J ]. Ecological Indicators, 2023, 154(11); 110740.

GAO C, PAN H, WANG M, et al. Identifying priority areas for ecological conservation and restoration based on circuit theory and dynamic weighted complex network; a case study of the Sichuan Basin [J]. Ecological Indicators, 2023, 15(4) ; 1015 - 1025.

ANDREA S, SEBASTIAN C, JAROSLAV M. Mapping a green infrastructure network; a framework for spatial connectivity applied in Northern Italy [ J ]. Environmental Science and Policy, 2022, 131(7) ; 57 -67.

LU Jie, JIAO Sheng, HU Jiaqi, et al. Construction and hierarchical optimization of Changsha ecological network based on multi¬scale collaboration [ J]. Acta Ecologica Sinica, 2023, 43 ( 15) ; 6332 -6344. (in Chinese)

WU Jinshan, DI Zenru. Complex networks in statistical physics J ]. Progress in Physics, 2004, 24 ( 1 ) ; 18 -46. (in Chinese)

CHEN W D, XU H, GUO Q. Dynamic analysis on the topological properties of the complex network of international oil prices [J]. Acta Physica Sinica, 2010, 59 (7 ) : 4514 -4523.

ZHOU Тао, ВО Wenjie, WANG Binghong, et al. A brief review of complex networks [J ]. Physics, 2005 ( 1 ) ; 31 -36. (in Chinese)

WANG X F, CHEN G. Complex networks; small-world, scale-free and beyond [J]. IEEE Circuits & Systems Magazine, 2003, 3( 1 ); 6-20.

ARIANOS S, BOMPARD E, CARBONE A, et al. Power grid vulnerability; a complex network approach [ J]. Chaos, 2009, 19(1); 175.

FENG J, LI X, MAO B, et al. Weighted complex network analysis of the Beijing subway system; train and passenger flows [J] . Physica A; Statistical Mechanics and Its Applications, 2017, 474(C) ; 213 -223.

PEREZ Q M J, TANCREZ J, LANGE J. Express shipment service network design with complex routes[J]. Computers and Operations Research, 2020, 114(2); 104810.

ZHANG Qibin. Study on the construction and optimization of ecological network in the northeastern margin of Ulanhuhe desert [ D ] . Beijing: Beijing Forestry University, 2020. (in Chinese)

ZENG Y. Complex network simulation of forest network spatial pattern in pearl river delta [ J ]. Copernicus GmbH, 2017(7) ; 1445 - 1449.

NIL1 Teng, YUE Depeng, ZHANG Qibin, et al. Spatial structure and characteristics of potential ecological networks [ J ]. Transactions of the Chinese Society for Agricultural Machinery, 2019, 50(8) ; 166 - 175. (in Chinese)

YU Qiang, ZHANG Qibin, NIU Teng, et al. Research progress and prospect of green ecological space network [ J]. Transactions of the Chinese Society for Agricultural Machinery, 2021 , 52( 12) ; 1 - 15. (in Chinese)

ZENG Y, CHEN X, YANG Z, et al. Study on the relationship between ecological spatial network structure and regional carbon use efficiency: a case study of the Wuding River Basin[J]. Ecological Indicators, 2023, 155(28) ; 110909.

BIAN Yu, LIN Xueqin, ZHOU Xiao, et al. Temporal and spatial evolution characteristics and influencing factors of industrial carbon emissions in Beijing — Tianjin — Hebei region [J] . Environmental Science & Technology, 2021 , 44( 11): 37 -47. (in Chinese)

ZHANG Peng. Spatiotemporal distribution of multi-scale LULC and ecosystem services based on the InVEST and PLUS models [D]. Handan; Hebei University of Engineering ,2022. (in Chinese)

WEN Huali. Comprehensive evaluation of ecological vulnerability of resource-based cities—a case study of Handan, Hebei [D]. Wuhan: Huazhong Agricultural University, 2021. (in Chinese)

ZHOU Peng. Investigation on the optimization of territorial space pattern and function enhancement path in Taihang Mountain region [D] . Chendu: University of Chinese Academy of Sciences ( Institute of Mountain Hazards and Environment, Chinese Academy of Sciences) , 2021. (in Chinese)