Carbon saving potential of urban parks in the Central Plains City: A high spatial resolution study using a forest city, Shangqiu, China as a lens
Publikation: Working paper › Preprint › Forskning
Standard
Carbon saving potential of urban parks in the Central Plains City : A high spatial resolution study using a forest city, Shangqiu, China as a lens. / Gao, Jianwei; Han, Haiting; Ge, Shidong.
Preprints.org, 2023.Publikation: Working paper › Preprint › Forskning
Harvard
APA
Vancouver
Author
Bibtex
}
RIS
TY - UNPB
T1 - Carbon saving potential of urban parks in the Central Plains City
T2 - A high spatial resolution study using a forest city, Shangqiu, China as a lens
AU - Gao, Jianwei
AU - Han, Haiting
AU - Ge, Shidong
PY - 2023
Y1 - 2023
N2 - This article investigates the potential for carbon reduction in urban parks in Shangqiu City using high-resolution remote sensing imagery. The aim is to guide modern urban carbon neutrality strategies. The carbon reduction potential is estimated based on the mitigation of the urban heat island effect by park greenery, which reduces energy consumption. The parks are regarded as cool island centers, and 100 cooling gradients are gradually formed outward until the temperature reaches that of impermeable urban surfaces. The energy saved by the parks in mitigating the heat island effect is statistically calculated as the carbon reduction potential of urban park greenery. Additionally, this article classifies the sample parks into different categories and selects 26 landscape metrics to analyze their relationship with carbon-saving potential and driving factors.
AB - This article investigates the potential for carbon reduction in urban parks in Shangqiu City using high-resolution remote sensing imagery. The aim is to guide modern urban carbon neutrality strategies. The carbon reduction potential is estimated based on the mitigation of the urban heat island effect by park greenery, which reduces energy consumption. The parks are regarded as cool island centers, and 100 cooling gradients are gradually formed outward until the temperature reaches that of impermeable urban surfaces. The energy saved by the parks in mitigating the heat island effect is statistically calculated as the carbon reduction potential of urban park greenery. Additionally, this article classifies the sample parks into different categories and selects 26 landscape metrics to analyze their relationship with carbon-saving potential and driving factors.
U2 - 10.20944/preprints202306.0137.v1
DO - 10.20944/preprints202306.0137.v1
M3 - Preprint
BT - Carbon saving potential of urban parks in the Central Plains City
PB - Preprints.org
ER -
ID: 356884785