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Rahmani M, Ahmadi Mirghaed ّ, Mollaaghajanzadeh S. Measuring spatiotemporal change in land use and habitat quality through remote sensing: A case study of the Tajan watershed, north of Iran. Journal of Spatial Analysis Environmental Hazards 2024; 11 (1) : 6
URL: http://jsaeh.khu.ac.ir/article-1-3376-fa.html
URL: http://jsaeh.khu.ac.ir/article-1-3376-fa.html
رحمانی محمد، احمدی میرقائد فرهان، ملاآقاجانزاده ساره. سنجش تغییرات زمانی- مکانی کاربری اراضی و کیفیت زیستگاه های حوضه آبخیز تجن با استفاده از داده های سنجش از دور. تحلیل فضایی مخاطرات محیطی. 1403; 11 (1)
1- دانشگاه مازندران ، m.rahmani@umz.ac.ir
2- دانشگاه مازندران
2- دانشگاه مازندران
چکیده: (5990 مشاهده)
این مطالعه با هدف ارزیابی کیفیت زیستگاههای آبخیز تجن در شمال ایران بر مبنای تغییرات کاربری اراضی در بازه زمانی 1431-1371 و بررسی ارتباط آن با سنجههای تعداد لکه (NP)، تراکم لکه (PD)، تراکم لبه (ED)، بزرگترین لکه (LPI)، شکل لکه (LSI) و جداشدگی (SPLIT) انجام پذیرفت. تصاویر لندست 8 و 4 برای تهیه نقشههای کاربری اراضی در سالهای 1371، 1401 و 1431 با استفاده از روشهای حداکثر احتمال، ترکیب متقاطع و CA-Markov در نرمافزارهای انوی و ترست پردازش شد. کیفیت زیستگاههای حوضه نیز با استفاده از اینوست در سه سناریو بر مبنای نقشههای کاربری اراضی ارزیابی و رابطه آن با تغییرات کاربری اراضی و سنجههای موردنظر بر اساس رگرسیون حداقل مربعات و آزمون همبستگی اسپیرمن تحلیل شد. نتایج نشان داد در بازه زمانی 1371 تا 1431، اراضی جنگلی و کشاورزی به ترتیب بیشترین تغییرات کاهشی (82460- هکتار) و افزایشی (76392 هکتار) را داشتند. زیستگاههای بخش مرکزی حوضه از کیفیت بالاتری نسبت به پهنههای شمالی و جنوبی برخوردار بودند. رابطه کیفیت زیستگاهها با تغییرات کاربری اراضی معنادار و معکوس (-0.95
شمارهی مقاله: 6
فهرست منابع
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45. Peng, Y.; K. Mi, F. Qing, and D. Xue. 2016. Identification of the main factors determining landscape metrics in semi-arid agro-pastoral ecotone. Journal of Arid Environments, 124: 249-256.
46. Sallustio, L.; A. De Toni, A. Strollo, M. Di Febbraro, E. Gissi, L. Casella, D. Geneletti, M. Munafo, M. Vizzarri, and M. Marchetti. 2017. Assessing habitat quality in relation to the spatial distribution of protected areas in Italy. Journal of Environmental Management, 201: 129–137.
47. Sharp, R.; H.T. Tallis, T. Ricketts, A.D. Guerry, S.A. Wood, R. Chaplin-Kramer, and J. Douglass. 2016. InVEST user’s guide. The natural capital project.
48. Sisay, G.; B. Gessesse, C. Fürst, M. Kassie, B. Kebede. 2023. Modeling of land use/land cover dynamics using artificial neural network and cellular automata Markov chain algorithms in Goang watershed, Ethiopia. Heliyon, 9(9).
49. TEEB. 2010. Main streaming the economics of nature: A synthesis of the approach, conclusions and recommendations of TEEB (The Economics of Ecosystems and Biodiversity). Earthscan.
50. USGS. 2020. United States geological survey website. https://earthexplorer.usgs.gov.
51. Wei, L.; L. Zhou, D. Sun, B. Yuan, and F. Hu. 2022a. Evaluating the impact of urban expansion on the habitat quality and constructing ecological security patterns: A case study of Jiziwan in the Yellow River Basin, China. Ecological Indicators, 145: 109544.
52. Wei, Q.; M. Abudureheman, A. Halike, K. Yao, L. Yao, H. Tang, and B. Tuheti. 2022b. Temporal and spatial variation analysis of habitat quality on the PLUS-InVEST model for Ebinur Lake Basin, China. Ecological Indicators, 145: 109632.
53. Wu, L.; C. Sun, and F. Fan. 2021. Estimating the Characteristic Spatiotemporal Variation in Habitat Quality Using the InVEST Model—A Case Study from Guangdong–Hong Kong–Macao Greater Bay Area. Remote Sensing, 13(5): 1008.
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