The assessment of green space equity centered on green view list (GVI) is very important so that the equitable circulation of green sources. Using the central urban part of Wuhan since the research object, based on multi-source data such Baidu Street View Map, Baidu Thermal Map, and satellite remote sensing images, we evaluated the equity of spatial distribution of GVI in Wuhan by using the locational entropy, Gini coefficient and Lorenz curve. The outcomes revealed that 87.6% associated with things within the main urban area of Wuhan had been underneath the degree of bad green eyesight, which mainly concentrated in Wuhan Iron and Steel Industrial Base of Qingshan District and south of Yandong Lake. The sheer number of points reaching a great degree ended up being minimal (0.4%), mainly focused round the East Lake. The entire Gini coefficient of GVI when you look at the central urban section of Wuhan ended up being 0.49, which indicated that the distribution of GVI was heterogeneous. The Gini coefficient of Hongshan District ended up being the biggest at 0.64, showing a giant space in the circulation of GVI, as the Gini coefficient of Jianghan District had been the tiniest at 0.47, with a sizable space into the circulation. The central urban part of Wuhan had the absolute most low-entropy places for 29.7% while the minimum high-entropy places for 15.4%. There have been two-level variations in entropy distribution within Hongshan District, Qingshan District, and Wuchang District. The character of land use and the role of linear greenery had been the primary factors impacting the equity of green space within the study location. Our outcomes could supply theoretical basis and planning guide Pulmonary pathology for optimizing urban green area layout.The acceleration of urbanization additionally the regular incident of normal disasters have actually resulted in progressively disconnected habitats and decreased environmental connectivity, which often hinder rural renewable development. Making ecological companies is an integral path into the spatial planning. By strengthening supply protection, corridor building, and environmental control, it can effectively relieve the contradiction between regional ecological and financial development instability and advertise biodiversity enhancement. With Yanqing District for example, we built the environmental system in the shape of the morphological spatial pattern analysis, the connectivity analysis computer software, together with minimum collective resistance design. We analyzed various community elements from a county perspective, and provide suggestions for the development of towns. The results indicated that the ecological system of Yanqing District as a whole provided the distribution characteristics of “the hill additionally the Plain”. A total of 12 age strengthening corridor connectivity had been the main way of network construction, that could market the construction of ecological landscape in towns. The cities such as Yanqing and Kangzhuang had been located in the “the Plain”, with serious landscape fragmentation because of the not enough ecological resources and corridors. Those cities need certainly to build green livable towns through increasing environmental nodes and strengthening environmental restoration. This study enriched the construction of environmental systems during the county scale, explored the interface with spatial planning, strengthened ecological repair and ecological control, which had guide worth for marketing the sustainable growth of towns in addition to building of a multi-scale ecological community.Construction and optimization of environmental security community is an effective way to make sure local ecological safety and achieve sustainable development. On the basis of the morphological spatial pattern analysis technique, circuit theory and other methods, we built the environmental security community associated with the Shule River Basin. The PLUS model was accustomed predict the land usage change in 2030, using the aim to explore the present environmental defense direction and recommend reasonable optimization methods. The outcomes showed that there have been 20 ecological sources in the Shule River Basin, with a total area of 15774.08 km2, accounting for 12.3% associated with complete part of research area. The ecological sources had been mainly selleckchem distributed in the south part of the study location. A total of 37 prospective environmental corridors had been removed, including 22 crucial ecological corridors, which showed the entire spatial characteristics of straight circulation. Meanwhile, 19 ecological pinch things and 17 ecological barrier things were identified. We predicted that the development of construction land would continue steadily to squeeze the ecological area by 2030, and identified 6 caution regions of environmental security area to effectively prevent conflicts between environmental defense and financial development. After optimization, 14 brand new environmental sources and 17 stepping-stones were included biohybrid structures , together with circuitry, ratio of line to node and connection list associated with the environmental security network increased by 18.3%, 15.5%, and 8.2% respectively in contrast to those before optimization, forming a structurally steady ecological safety network.