LANDSHAFTLARDAGI BOG‘LANISHNI MODELLASHTIRISH ASOSIDA EKOLOGIK TAR-MOQLARNI SHAKLLANTIRISH

Abduganiev Olimjon Isomiddinovich; Kosimov Dilshodbek Baxodirovich; Mamirova Zulfiya Ibroximjon qizi

doi:10.56292/SJFSU/vol31_iss6/a267

Mualliflar

Abduganiev Olimjon Isomiddinovich

Fargʻona davlat universiteti

https://orcid.org/0000-0001-9539-9269
Kosimov Dilshodbek Baxodirovich

Fargʻona davlat universiteti

https://orcid.org/0009-0001-0966-7691
Mamirova Zulfiya Ibroximjon qizi

Abu Ali ibn Sino nomidagi ixtisoslashgan maktab

https://orcid.org/0009-0000-6283-7496

DOI:

https://doi.org/10.56292/SJFSU/vol31_iss6/a267

Kalit so‘zlar:

biologik xilma-xillik, landshaft bog‘lanishi, landshaft uzviyligi, morfologik ko‘rsatkichlar, struktur bog‘lanish, funksional bog‘lanish, MSPA, MCR, ekologik tarmoqlar.

Annotatsiya

Ushbu maqolada zamonaviy landshaft ekologiyasida muhim ahamiyatga ega bo‘lgan landshaftlardagi ekologik bog‘lanishni modellashtirish, uning tuzilishi, funksional xususiyatlari va ekotizim barqarorligi uchun ahamiyati ilmiy jihatdan tahlil qilingan. Tadqiqotda geotizimlarda kechayotgan antropogen o‘zgarishlar, fragmentatsiya jarayonlari va ularning biologik xilma-xillikka ta’siri bayon etilgan. Shuningdek, landshaft konfiguratsiyasi, tabiiy hududlar shakli, hajmi va joylanishi turlar migratsiyasi, genetik almashinuv va ekotizim barqarorligiga qanday ta’sir qilishini ochib berilgan. Maqolada landshaftlarning strukturaviy va funksional bog‘lanishini baholashda qo‘llaniladigan yondashuvlar va mezonlarning qiyosiy tahlili berilgan. Ushbu yondashuv tabiatni muhofaza qilish, ekoyo‘laklarni rejalashtirish, biologik xilma-xillikni saqlash va hududiy ekologik siyosatni takomillashtirishda muhim amaliy ahamiyat kasb etadi.

Mualliflar haqida

Abduganiev Olimjon Isomiddinovich, Fargʻona davlat universiteti

Farg‘ona davlat universiteti Geografiya kafedrasi professori, DSc.
Kosimov Dilshodbek Baxodirovich, Fargʻona davlat universiteti

Farg‘ona davlat universiteti, o‘qituvchi
Mamirova Zulfiya Ibroximjon qizi, Abu Ali ibn Sino nomidagi ixtisoslashgan maktab

Abu Ali ibn Sino nomidagi ixtisoslashgan maktab Farg‘ona

fillialining Geografiya fani o‘qituvchisi

Adabiyotlar

1. Гродзинський МД. Пізнання ландшафту: місце і простір. Том 2. Київ: Київський університет; 2005. 503с

2. Хорошев А. В., Алещенко Г. М. Иерархическая организация межкомпонентных связей в ландшафте // Вестник Московского университета. Серия 5. География. 2012. №3. URL: https://cyberleninka. ru/article/n/ ierarhicheskaya -organizatsiya-mezhkomponentnyh-svyazey-v-landshafte (дата обращения: 19.10.2025).

3. Шушкова ЕВ, Сидорович АА, Лукина ИИ. Проницаемость ландшафтов и сред обитания для животных: обзор существующих подходов. Журнал Белорусского государственного университета. География. Геология. 2023;1:47–56. https://doi.org/ 10.33581/2521-6740-2023-1-47-56.

4. Taylor, Philip D.; Fahrig, Lenore; Henein, Kringen; Merriam, Gray (1993). "Connectivity Is a Vital Element of Landscape Structure" (PDF). Oikos. 68 (3). JSTOR: 571.

5. FISCHER, JOERN; LINDENMAYER, DAVID B.; FAZEY, IOAN (2004). "Appreciating Ecological Complexity: Habitat Contours as a Conceptual Landscape Model". Conservation Biology. 18 (5). Wiley: 1245–1253.

6. Fischer, J. and D.B. Lindenmayer. 2006. Beyond fragmentation: the continuum model for fauna research and conservation in human-modified landscapes. Oikos, 112: 473–480.

7. Baguette, Michel; Blanchet, Simon; Legrand, Delphine; Stevens, Virginie M.; Turlure, Camille (November 24, 2012). "Individual dispersal, landscape connectivity and ecological networks". Biological Reviews. 88 (2).

8. Wiley: 310–326. Baudry, Jacques, and Karl-Friedrich Schreiber. Connectivity and connectedness: functional versus structural patterns in landscapes. Ferdinand Schöningh, 1988.

9. Tischendorf, Lutz; Fahrig, Lenore (2000). "On the usage and measurement of landscape connectivity". Oikos. 90 (1). Wiley: 7–19.

10. Merriam, G. (1984). Connectivity: a fundamental ecological characteristic of landscape pattern. In: Brandt, J. and Agger, P. (eds), Proceedings of the 1st international seminar on methodology in landscape ecological research and planning. Roskilde University. Denmark, Pg 5-15.

11. With, Kimberly A.; Gardner, Robert H.; Turner, Monica G. (1997). "Landscape Connectivity and Population Distributions in Heterogeneous Environments". Oikos. 78 (1). JSTOR: 151.

12. Ament, R., R. Callahan, M. McClure, M. Reuling, and G. Tabor (2014). Wildlife Connectivity: Fundamentals for conservation action (Report). Center for Large Landscape Conservation: Bozeman, Montana.

13. Crooks Kevin R., Sanjayan, M. (2006). "Connectivity conservation: maintaining connections for nature". Connectivity Conservation. Cambridge: Cambridge University Press. pp. 1–20.

14. Barnosky, Anthony D.; Hadly, Elizabeth A.; et al. (2012). "Approaching a state shift in Earth's biosphere". Nature. 486 (7401). Springer Science and Business Media LLC: 52–58.

15. Foley, J. A. (July 22, 2005). "Global Consequences of Land Use". Science. 309 (5734). American Association for the Advancement of Science (AAAS): 570–574.

16. Ayram, C., Mendoza, M., Etter, A., Salicrup, D. (2016). Habitat connectivity in biodiversity conservation: A review of recent studies and applications. Progress in Physical Geography. Vol. 40 (1) Pg 7–37.

17. Cowen, Robert K.; Sponaugle, Su (2009-01-01). "Larval Dispersal and Marine Population Connectivity". Annual Review of Marine Science. 1 (1): 443–466.

18. Calabrese, J. M., and W. F. Fagan. 2004. A comparison-shopper's guide to connectivity metrics. Frontiers in Ecology and the Environment 2:529-536.

19. Summerhayes C.P. et al. The future extent of the Anthropocene epoch: A synthesis. Global and Planetary Change 242 (2024) 104568 C.P. https://doi.org/ 10.1016/j.gloplacha.2024.104568

20. Lewis S.L. and Maslin M.A. (2015) Defining the Anthropocene. Nature 519: 171–180.

21. With, Kimberly A., 'Landscape Connectivity', Essentials of Landscape Ecology (Oxford, 2019; online edn, Oxford Academic, 22 Aug. 2019), https://doi.org/10.1093/oso/ 9780198838388.003.0005, accessed 18 Oct. 2025.

22. United Nations. (2018). The World ’s Cities in 2018 Data Booklet (ST/ESA/SER.A/417). In Department of Economic and Social Affairs, Population Division. https://www.un.org/en/events/citiesday/assets/pdf/the_worlds_cities_in_2018_data_booklet.pdf

23. Diniz, M. F., Cushman, S. A., Machado, R. B., & De Marco Júnior, P. (2020). Landscape connectivity modeling from the perspective of animal dispersal. Landscape Ecology, 35, 41–58. https://doi.org/10.1007/s10980-019-00935-3.

24. Shao D, Liu K, Mossman HL, Adams MP, Wang H, Li D, Yan Y, Cui B (2021) A prioritization metric and modelling framework for fragmented saltmarsh patches restoration. Ecol Indic 128:107833.

25. Fahrig L (2013) Rethinking patch size and isolation effects: the habitat amount hypothesis. J Biogeogr 40(9):1649–1663.

26. McGarigal K, Cushman SA, Ene E (2012) FRAGSTATS v4: spatial pattern analysis program for categorical and continuous maps. Computer software program produced by the authors at the University of Massachusetts, Amherst. http://www.umass.edu/landeco/research/ fragstats/frags tats.html.