Abstract
Context
Internet-based street-view greenery (SG) is a new tool for evaluating urban green infrastructure, with proved vital services for residents, while until now, no report is on SG-aimed management from forest structure and landscape patterns.
Objectives
To find out plant composition, tree size, and landscape pattern’s contribution to inter-and intra-city SG variations, and implication for SG-maximization management.
Methods
The SG was quantified by upper green view index (sky GVI), middle GVI, and ground GVI by using Baidu Street View in Harbin and Changchun; forest structure and landscape metrics were also measured in field survey, street-view picture, and remote sensing, then matched to 2 km × 2 km grids. Sampling density was 0.25–3 plots/km2, securing uncertainty < 10%.
Results
Both mean GVI, sky GVI, middle GVI, and ground GVI in Harbin were higher than those in Changchun. SG was mainly driven by landscape patterns, and their explaining power decreased from intra-city to inter-city level. In Harbin, the major driving factors for GVI were patch density (PD), tree height, and total green space area (TA), and in Changchun, tree height (TH), edge density (ED), and aggregation index were the main ones. Pooled two cities' data showed that GVI was affected by TH, TA, and ED. Our findings highlighted that SG could be regulated by landscape configuration and large tree conservation, rather than species richness.
Conclusions
Utilization of internet big data, field survey, and remote sensing could provide a new basis for urban green infrastructure management from SG regulation, and our data is an example for this.
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References
Aoki Y (1991) Evaluation methods for landscapes with greenery. Landsc Res 16(3):3–6
Baidu (2019) Baidu Street View Image API. http://developer.baidu.com/map/index.php?title=viewstatic. accessed Access Date Access Year
Berland A, Lange DA (2017) Google Street View shows promise for virtual street tree surveys. Urban For Urban Green 21:11–15
Burr A, Schaeg N, Hall DM (2018) Assessing residential front yards using Google Street View and geospatial video: a virtual survey approach for urban pollinator conservation. Appl Geogr 92:12–20
Chen M, Dai F, Li W, Yang C (2019) A study of urban greening assessment based on visible green index: a case study of Jianghan District in Wuhan. J Chin Urban For 17(3):1–6
Dong R, Zhang Y, Zhao J (2018) How green are the streets within the sixth Ring Road of Beijing? An analysis based on tencent street view pictures and the Green View Index. Int J Environ Res Public Health 15(7):1367
Helbich M, Yao Y, Liu Y, Zhang J, Liu P, Wang R (2019) Using deep learning to examine street view green and blue spaces and their associations with geriatric depression in Beijing. China Environ Int 126:107–117
Jim CY, Chen WY (2010) Habitat effect on vegetation ecology and occurrence on urban masonry walls. Urban For Urban Green 9(3):169–178
Korner-Nievergelt F, Roth T, von Felten S, Guélat J, Almasi B, Korner-Nievergelt P (2015) Chapter 7—linear mixed effects models. In: Korner-Nievergelt F, Roth T, von Felten S, Guélat J, Almasi B, Korner-Nievergelt P (eds) Bayesian data analysis in ecology using linear models with R, BUGS, and STAN. Academic Press, Boston, pp 95–114
Legendre P, Legendre L (1998) Numerical ecology, 2nd edn. Elsevier, Amsterdam
Leps J, Smilauer P (2003) Multivariate analysis of ecological data using CANOCO. Cambridge University Press, Cambridge
Li X, Ghosh D (2018) Associations between Body Mass Index and Urban “Green” Streetscape in Cleveland, Ohio, USA. Int J Environ Res Public Health 15(10):2186
Li X, Zhang C, Li W, Kuzovkina YA, Weiner D (2015a) Who lives in greener neighborhoods? The distribution of street greenery and its association with residents’ socioeconomic conditions in Hartford, Connecticut, USA. Urban For Urban Green 14(4):751–759
Li X, Zhang C, Li W, Ricard R, Meng Q, Zhang W (2015b) Assessing street-level urban greenery using Google Street View and a modified green view index. Urban For Urban Green 14(3):675–685
Liu X, Wang W, Zhou W (2019) Spatial heterogeneity of urban street trees in Harbin, China. Bull Bot Res 39(4):590–597
Long Y, Liu L (2017) How green are the streets? An analysis for central areas of Chinese cities using Tencent Street View. PLoS ONE 12(2):e0171110
Lu Y, Sarkar C, Xiao Y (2018) The effect of street-level greenery on walking behavior: evidence from Hong Kong. Soc Sci Med 208:41–49
Lu Y, Yang Y, Sun G, Gou Z (2019) Associations between overhead-view and eye-level urban greenness and cycling behaviors. Cities 88:10–18
Lv H, Wang W, He X, Xiao L, Zhou W, Zhang B (2016) Quantifying tree and soil carbon stocks in a temperate urban forest in Northeast China. Forests 7(9):200
Lv H, Wang W, He X, Wei C, Xiao L, Zhang B, Zhou W (2018) Association of urban forest landscape characteristics with biomass and soil carbon stocks in Harbin City, Northeastern China. PeerJ 6:e5825
Lv H, Yang Y, Zhang D, Du H, Zhang J, Wang W, He X (2019) Perimeter-area ratio effects of urbanization intensity on forest characteristics, landscape patterns and their associations in Harbin City, Northeast China. Urban Ecosyst 22(4):631–642
Ma X, Wang L, Yang H, Li N, Gong C (2020) Spatiotemporal analysis of water quality using multivariate statistical techniques and the water quality identification index for the Qinhuai River Basin, East China. Water 12(10):2764
Nakagawa S, Schielzeth H, O’Hara RB (2013) A general and simple method for obtainingR2from generalized linear mixed-effects models. Methods Ecol Evol 4(2):133–142
Nowak DJ, Walton JT, Stevens JC, Crane DE, Hoehn RE (2008) Effect of plot and sample size on timing and precision of urban forest assessments. Aboricult Urban For 34(6):386–390
Ren Z, He X, Zheng H, Zhang D, Yu X, Shen G, Guo R (2013) Estimation of the relationship between urban park characteristics and Park Cool Island intensity by remote sensing data and field measurement. Forests 4(4):868–886
Ren Z, Zheng H, He X, Zhang D, Yu X (2015a) Estimation of the relationship between urban vegetation configuration and land surface temperature with remote sensing. J Indian Soc Remote Sens 43(1):89–100
Ren Z, Zheng H, He X, Zhang D, Yu X, Shen G (2015b) Spatial estimation of urban forest structures with Landsat TM data and field measurements. Urban For Urban Green 14(2):336–344
Ren Z, Zheng H, He X, Zhang D, Shen G, Zhai C (2019) Changes in spatio-temporal patterns of urban forest and its above-ground carbon storage: implication for urban CO2 emissions mitigation under China’s rapid urban expansion and greening. Environ Int 129:438–450
Wang P (2017) Study on rainwater runoff regulation of urban forest: a case study in Changchun. Doctor's thesis, University of Chinese Academy of Sciences
Wang H, Wang W, Chang S (2017a) Sampling method and tree-age affect soil organic C and N contents in larch plantations. Forests 8(1):e28
Wang W, Lu J, Du H, Wei C, Wang H, Fu Y, He X (2017b) Ranking thirteen tree species based on their impact on soil physiochemical properties, soil fertility, and carbon sequestration in Northeastern China. For Ecol Manag 404:214–229
Wang W, Wang Q, Zhou W, Xiao L, Wang H, He X (2018a) Glomalin changes in urban-rural gradients and their possible associations with forest characteristics and soil properties in Harbin City, Northeastern China. J Environ Manag 224:225–234
Wang W, Wang Q, Zhou W, Xiao L, Wang H, He X (2018b) Microclimate regulating functions of urban forests in Changchun City (north-east China) and their associations with different factors. iForest-Biogeosci For 11(1):140–147
Wang W, Xiao L, Zhang J, Yang Y, Tian P, Wang H, He X (2018c) Potential of Internet street-view images for measuring tree sizes in roadside forests. Urban For Urban Green. 35:211–220
Wang Q, Wang W, He X, Zhou W, Zhai C, Wang P, Tang Z, Wei C, Zhang B, Xiao L, Wang H (2019a) Urbanization-induced glomalin changes and their associations with land-use configuration, forest characteristics, and soil properties in Changchun, Northeast China. J Soils Sedim 19(5):2433–2444
Wang Q, Zhang D, Zhou W, He X, Wang W (2019b) Urbanization led to a decline in glomalin-soil-carbon sequestration and responsible factors examination in Changchun, Northeastern China. Urban For Urban Green 48:126506
Wang W, Zhang B, Zhou W, Lv H, Xiao L, Wang H, Du H, He X (2019c) The effect of urbanization gradients and forest types on microclimatic regulation by trees, in association with climate, tree sizes and species compositions in Harbin city, northeastern China. Urban Ecosyst. 22(2):367–384
Wolch JR, Byrne J, Newell JP (2014) Urban green space, public health, and environmental justice: the challenge of making cities ‘just green enough.’ Landsc Urban Plann 125:234–244
Xiao L, Wang W, He X, Lv H, Wei C, Zhou W, Zhang B (2016a) Urban-rural and temporal differences of woody plants and bird species in Harbin city, Northeastern China. Urban For Urban Green 20(1):20–31
Xiao L, Wang WJ, Zhang D, He XY, Wei CH, Lv HL, Zhou W, Zhang B (2016b) Urban forest tree species composition and arrangement reasonability in Harbin, northeast China. Chin J Ecol 35(8):2074–2081
Xu H, Wang W, Wang H, Sun Y, Zhong Z, Wang S (2019) Differences in quantity and composition of leaf particulate matter and morphological structures in three evergreen trees and their association in Harbin. China Environ Pollut 252:1772–1790
Yanai RD, Battles JJ, Richardson AD, Blodgett CA, Wood DM, Rastetter EB (2010) Estimating uncertainty in ecosystem budget calculations. Ecosystems 13(2):239–248
Yang Y (2017) Research on green looking ratio and scenic beauty estimation on business district in main urban area in Kunming. Southwest Forestry University, Kunming
Yang J, Zhao L, McBride J, Gong P (2009) Can you see green? Assessing the visibility of urban forests in cities. Landsc Urban Plann 91(2):97–104
Yu Y, Zhang Z, Yu D (2010) Study on the selection of climbing trees suitable for vertical greening in Heilongjiang. Territory Nat Resour Stud 3:86–88
Yu S, Yu B, Song W, Wu B, Zhou J, Huang Y, Wu J, Zhao F, Mao W (2016) View-based greenery: a three-dimensional assessment of city buildings’ green visibility using Floor Green View Index. Landsc Urban Plann 152:13–26
Yu X, Zhao G, Chang C, Yuan X, Heng F (2019) BGVI: a new index to estimate street-side greenery using Baidu street view image. Forests 10(1):3
Zhai C, Wang W, He X, Zhou W, Xiao L, Zhang B (2017) Urbanization drives SOC accumulation, its temperature stability and turnover in Forests, Northeastern China. Forests 8(4):130
Zhang D, Zheng H, He X, Ren Z, Zhai C, Yu X, Mao Z, Wang P (2015a) Effects of forest type and urbanization on species composition and diversity of urban forest in Changchun, Northeast China. Urban Ecosyst 19(1):455–473
Zhang D, Zheng H, Ren Z, Zhai C, Shen G, Mao Z, Wang P, He X (2015b) Effects of forest type and urbanization on carbon storage of urban forests in Changchun, Northeast China. Chin Geograph Sci 25(2):147–158
Zhang D, Wang W, Zheng H, Ren Z, Zhai C, Tang Z, Shen G, He X (2017a) Effects of urbanization intensity on forest structural-taxonomic attributes, landscape patterns and their associations in Changchun, Northeast China: Implications for urban green infrastructure planning. Ecol Indic 80:286–296
Zhang J, Meng Q, Sun Y, Sun Z, Zhang L (2017b) Study on Urban Green View index. J Geo-Inf Sci 19(6):838–845
Acknowledgements
Financial support for this study was provided by the NSFC project (41730641, 31670699), basic research funding for national universities from China’s Ministry of Education (2572017DG04), and the Longjiang Professor Fund from Northeast Forestry University.
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Xiao, L., Wang, W., Ren, Z. et al. Two-city street-view greenery variations and association with forest attributes and landscape metrics in NE China. Landscape Ecol 36, 1261–1280 (2021). https://doi.org/10.1007/s10980-021-01210-0
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DOI: https://doi.org/10.1007/s10980-021-01210-0