Abstract
The distribution and structure of urban land use/land cover (LULC) are important determinants of avian diversity, and their unbalanced integration might create low-diversity (coldspot) areas. This study developed a modeling procedure to identify the LULC-driven avian diversity coldspots in Isfahan City, Iran. The bird Shannon–Wiener diversity index (H') was calculated along several rural-to-urban straight transects. It was hypothesized that H' is influenced by the LULC characteristics of neighboring areas measured in several circular buffer rings. Using a multiple linear regression (MLR) model (R2 = 0.649; p = 0.040), the most important variables were found to be: distance to and area of the nearest green patch, road coverage, percentage of green areas and mean Euclidean distance between green patches in different buffer rings. The spatial application of the MLR model indicated that bird diversity decreases considerably toward the urban core due to decreasing area and proximity of green covers. Assuming that the lowest 10th percentile of H' represent bird coldspots, three low-diversity areas were identified, covering almost 3% (324.3 ha) of the urban interior environment. These areas provide a potential focus for biodiversity conservation through further development of green parks.
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References
Amiri BJ, Nakane K (2009) Modeling the linkage between river water quality and landscape metrics in the Chugoku district of japan. Water Resour Manag 23(5):931–956
Aouissi HA, Petrişor A-I, Ababsa M, Boştenaru-Dan M, Tourki M, Bouslama Z (2021) Influence of land use on avian diversity in North African urban environments. Land 10(4):434
Asgarian A, Amiri BJ, Sakieh Y (2015) Assessing the effect of green cover spatial patterns on urban land surface temperature using landscape metrics approach. Urban Ecosyst 18(1):209–222
Asgarian A, Soffianian A, Pourmanafi S, Bagheri M (2018) Evaluating the spatial effectiveness of alternative urban growth scenarios in protecting cropland resources: a case of mixed agricultural-urbanized landscape in central Iran. Sustain Cities Soc 43:197–207
Baró F, Gómez-Baggethun E, Haase D (2017) Ecosystem service bundles along the urban-rural gradient: insights for landscape planning and management. Ecosyst Serv 24:147–159
Bibby CJ, M Jones and S Marsden (1998). Bird surveys. Expedition Advisory Centre London
Bonilla-Bedoya S, Estrella A, Vaca Yánez A, Herrera MÁ (2020) Urban socio-ecological dynamics: applying the urban-rural gradient approach in a high Andean city. Landsc Res 45(3):327–345
Bushra A, Padalia H, Khan A (2021) Predicting spatial patterns of bird richness in an urban landscape in Himalayan foothills, India. Urban Ecosyst 24(3):451–467
Callaghan CT, Major RE, Wilshire JH, Martin JM, Kingsford RT, Cornwell WK (2019) Generalists are the most urban-tolerant of birds: a phylogenetically controlled analysis of ecological and life history traits using a novel continuous measure of bird responses to urbanization. Oikos 128(6):845–858
Chang J, and J Schiewe (2018). Task-oriented data classification of choropleth maps for preserving local extreme values. Kersten T et al.(Ed): Photogrammetrie-Femerkundung-Geoinforrnatik-Kartographie-2018, 38: 213–218
Cohen S, Brakenridge GR, Kettner A, Bates B, Nelson J, McDonald R, Huang YF, Munasinghe D, Zhang J (2018) Estimating floodwater depths from flood inundation maps and topography. JAWRA J Am Water Resour Assoc 54(4):847–858
de Lima GN, Rueda VOM (2018) The urban growth of the metropolitan area of Sao Paulo and its impact on the climate. Weather Climat Extrem 21:17–26
Emenike PC, Tenebe IT, Neris JB, Omole DO, Afolayan O, Okeke CU, Emenike IK (2020) An integrated assessment of land-use change impact, seasonal variation of pollution indices and human health risk of selected toxic elements in sediments of river Atuwara, Nigeria. Environ Pollut 265:114795
Enaruvbe G, Atafo O (2019) Land cover transition and fragmentation of river Ogba catchment in Benin city, Nigeria. Sustain Cities Soc 45:70–78
Gonçalves SF, de Paula Lourenço AC, de Sousa Bueno FJS, de Toledo MCB (2021) Characteristics of residential backyards that contribute to conservation and diversity of urban birds: A case study in a southeastern Brazilian city. Urban for Urban Green 61:127095
Hasan S, Shi W, Zhu X (2020) Impact of land use land cover changes on ecosystem service value–a case study of Guangdong, Hong Kong, and Macao in south china. PLoS ONE 15(4):e0231259
Hemami M, A Zayeri and N Sharifianpour (2009). The effect of urban park and area on birds species of Isfahan. Organization of Municipalities and Rural Management, Ministry of Interior.
Hou L, Wu F, Xie X (2020) The spatial characteristics and relationships between landscape pattern and ecosystem service value along an urban-rural gradient in Xi’an city, china. Ecol Ind 108:105720
Hutcheson K (1970) A test for comparing diversities based on the Shannon formula. J Theor Biol 29(1):151–154
Iranian Bureau of Statistics (2015). Statistical yearbook of Isfahan province.
Jia W, Zhao S, Zhang X, Liu S, Henebry GM, Liu L (2021) Urbanization imprint on land surface phenology: the urban–rural gradient analysis for Chinese cities. Glob Change Biol 27(12):2895–2904
Kompała-Bąba A, Bierza W, Sierka E, Błońska A, Besenyei L, Woźniak G (2021) The role of plants and soil properties in the enzyme activities of substrates on hard coal mine spoil heaps. Sci Rep 11(1):1–13
Lambin EF and Geist HJ (2008). Land-use and land-cover change: local processes and global impacts. Springer Science & Business Media.
Leveau LM, Leveau CM (2016) Does urbanization affect the seasonal dynamics of bird communities in urban parks? Urban Ecosyst 19(2):631–647
Leveau LM, Isla FI, Bellocq MI (2018) Predicting the seasonal dynamics of bird communities along an urban-rural gradient using ndvi. Landsc Urban Plan 177:103–113
Lososová Z, Tichý L, Divíšek J, Čeplová N, Danihelka J, Dřevojan P, Fajmon K, Kalníková V, Kalusová V, Novák P (2018) Projecting potential future shifts in species composition of European urban plant communities. Divers Distrib 24(6):765–775
Mahiny AS, Clarke KC (2012) Guiding sleuth land-use/land-cover change modeling using multicriteria evaluation: Towards dynamic sustainable land-use planning. Environ Plann B Plann Des 39(5):925–944
Mao Q, Liao C, Wu Z, Guan W, Yang W, Tang Y, Wu G (2019) Effects of land cover pattern along urban-rural gradient on bird diversity in wetlands. Diversity 11(6):86
Marzluff, J.M., Bowman R and Donnelly R (2001). A historical perspective on urban bird research: trends, terms, and approaches. In: avian ecology and conservation in an urbanizing world. Springer: pp: 1–17.
Mbiba M, Mazhude C, Fabricius C, Fritz H, Muvengwi J (2021) Bird species assemblages differ, while functional richness is maintained across an urban landscape. Landsc Urban Plan 212:104094
McGarigal K (1995). Fragstats: Spatial pattern analysis program for quantifying landscape structure. US department of agriculture, forest service, Pacific Northwest Research station
Melles S, Glenn S, Martin K (2003) Urban bird diversity and landscape complexity: Species–environment associations along a multiscale habitat gradient. Conserv Ecol 7(1):1
Merrall ES and KL Evans (2020). Anthropogenic noise reduces avian feeding efficiency and increases vigilance along an urban–rural gradient regardless of species’ tolerances to urbanisation. Journal of Avian Biology, 51(9)
Miranda C, Gamarra R, Mioto C, Silva N, Conceição A, Pott A (2017) Analysis of the landscape complexity and heterogeneity of the Pantanal wetland. Braz J Biol 78:318–327
Moein M, Asgarian A, Sakieh Y, Soffianian A (2018) Scenario-based analysis of land-use competition in central iran: finding the trade-off between urban growth patterns and agricultural productivity. Sustain Cities Soc 39:557–567
Morelli F, Benedetti Y, Šímová P (2018) Landscape metrics as indicators of avian diversity and community measures. Ecol Ind 90:132–141
Mourad R, Jaafar H, Anderson M, Gao F (2020) Assessment of leaf area index models using harmonized landsat and sentinel-2 surface reflectance data over a semi-arid irrigated landscape. Remote Sens 12(19):3121
Muñoz-Pedreros A, González-Urrutia M, Encina-Montoya F, Norambuena HV (2018) Effects of vegetation strata and human disturbance on bird diversity in green areas in a city in southern Chile. Avian Res 9(1):1–15
Novriyanti N, Ihsan I, Irawan B and Wulan C (2021). Fragmented urban areas: can plants encourage birds in Jambi city urban space? In: IOP conference series: earth and environmental science. IOP publishing: pp: 012028
Onaindia M, Fisher J (2020) Urban growth and biodiversity conservation. Life on Land 1:1069–1079
Pal M, Pop P, Mahapatra A, Bhagat R, Hore U (2019) Diversity and structure of bird assemblages along urban-rural gradient in kolkata, india. Urban for Urban Green 38:84–96
Parrish MC, Hepinstall-Cymerman J (2012) Associations between multiscale landscape characteristics and breeding bird abundance and diversity across urban-rural gradients in northeastern Georgia, USA. Urban Ecosyst 15(3):559–580
Pearson SM (1993) The spatial extent and relative influence of landscape-level factors on wintering bird populations. Landsc Ecol 8(1):3–18
Perillo A, Mazzoni LG, Passos LF, Goulart VD, Duca C, Young RJ (2017) Anthropogenic noise reduces bird species richness and diversity in urban parks. Ibis 159(3):638–646
Pettorelli N (2013). The normalized difference vegetation index. Oxford University Press
Pithon JA, Duflot R, Beaujouan V, Jagaille M, Pain G, Daniel H (2021) Grasslands provide diverse opportunities for bird species along an urban-rural gradient. Urban Ecosyst 24(6):1281–1294
Plummer KE, Gillings S, Siriwardena GM (2020) Evaluating the potential for bird-habitat models to support biodiversity-friendly urban planning. J Appl Ecol 57(10):1902–1914
Rashidi M, Chamani A, Moshtaghi M (2019) The influence of transport infrastructure development on bird diversity and abundance. Ekológia 38(2):178–188
Reis, A.R.N.d., D. Biondi, M.M. Grise, J. Viezzer, B. Kovalsyki and E. Ximenes, (2019) Potential distribution of Ocotea odorifera (vell.) Rohwer in urban areas of Curitiba, Paraná state, brazil. Ciência Florest 29:1782–1795
Rodrigues AG, Borges-Martins M and Zilio F (2018). Bird diversity in an urban ecosystem: the role of local habitats in understanding the effects of urbanization. Iheringia. Série Zoologia, 108
Sakieh Y, Amiri BJ, Danekar A, Feghhi J, Dezhkam S (2015a) Scenario-based evaluation of urban development sustainability: An integrative modeling approach to compromise between urbanization suitability index and landscape pattern. Environ Dev Sustain 17(6):1343–1365
Sakieh Y, Salmanmahiny A, Jafarnezhad J, Mehri A, Kamyab H, Galdavi S (2015b) Evaluating the strategy of decentralized urban land-use planning in a developing region. Land Use Policy 48:534–551
Sakieh Y, Jaafari S, Ahmadi M, Danekar A (2017) Green and calm: modeling the relationships between noise pollution propagation and spatial patterns of urban structures and green covers. Urban Forest Urban Green 24:195–211
Sharma P (2018) India’s unbalanced urban growth: An appraisal of trends and policies. J Global Initiat: Policy Pedag Perspect 12(1):77–90
Sicard P, Agathokleous E, De Marco A, Paoletti E, Calatayud V (2021) Urban population exposure to air pollution in Europe over the last decades. Environ Sci Eur 33(1):1–12
Simon D, McGregor D and Thompson D (2012). Contemporary perspectives on the peri-urban zones of cities in developing countries. In: the peri-urban interface. Routledge: pp: 26–40.
Soleimani M, Amini N, Sadeghian B, Wang D, Fang L (2018) Heavy metals and their source identification in particulate matter (pm2. 5) in Isfahan city, Iran. J Environ Sci 72:166–175
Song W (2015) Analysis of bird species diversity response to structural conditions of urban park-focused on 26 urban parks in Cheonan city. J Korean Soc Environ Restorat Technol 18(3):65–77
Song W-K (2018) Analysis of urban green areas using ndvi and development of a model to analyze bird diversity in urban parks. J Korean Soc Environ Restorat Technol 21(1):73–82
Suarez-Rubio M, Aung T, Lin Oo SS, Shwe NM, Hlaing NM, Naing KM, Oo T, Sein MM, Renner SC (2016) Nonbreeding bird communities along an urban–rural gradient of a tropical city in central Myanmar. Trop Conserv Sci 9(4):1940082916675961
Sweeney S, Engindeniz E, Gündüz S (2007) Ecological concepts necessary to the conservation of biodiversity in urban environments. A| Z ITU J Fac of Archit 4(1):56–72
Tashakkor S, Chamani A, Nadoushan MA, Moshtaghie M (2020) Acoustics in urban parks: does the structure of narrow urban parks matter in designing a calmer urban landscape? Front Earth Sci 14(3):512–521
Weinzettel J, Hertwich EG, Peters GP, Steen-Olsen K, Galli A (2013) Affluence drives the global displacement of land use. Glob Environ Chang 23(2):433–438
Widyowati LA, Rani IH (2022) Financial performance and corporate value relationship: Does good corporate governance matter? Quant Econ Manag Stud 3(3):333–341
Wood JM, Quinn JE (2016) Local and landscape metrics identify opportunities for conserving cavity-nesting birds in a rapidly urbanizing ecoregion. J Urban Ecol 2(1):juw003
Xu S, Zhu X, Helmer EH, Tan X, Tian J, Chen X (2021) The damage of urban vegetation from super typhoon is associated with landscape factors: evidence from sentinel-2 imagery. Int J Appl Earth Obs Geoinf 104:102536
Yu M, Huang Y, Cheng X, Tian J (2019) An arcmap plug-in for calculating landscape metrics of vector data. Eco Inform 50:207–219
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Farahnasab, A., Farshchi, P., Behbash, R. et al. Characterization of bird diversity coldspots in relation to urban land use patterns and distribution: a modeling approach in Isfahan City, Iran. Int. J. Environ. Sci. Technol. 20, 10811–10822 (2023). https://doi.org/10.1007/s13762-023-05090-6
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DOI: https://doi.org/10.1007/s13762-023-05090-6