This research is a descriptive-quantitative study that evaluates the ecological condition of the Kehati Campus Forest at UIN Maulana Malik Ibrahim Malang through an integrated monitoring approach. The analysis includes estimating vegetation carbon stock, mapping tree distribution using geotagging methods, assessing groundwater infiltration potential, and identifying bird diversity as an ecosystem bioindicator. Vegetation data were collected by measuring tree diameter and height to calculate biomass and carbon storage, while geotagging was employed for spatial mapping of vegetation distribution. Groundwater infiltration potential was projected based on species dominance, whereas bird diversity was assessed using the line transect method. The results indicate that Artocarpus heterophyllus exhibited the highest dominance value and contributed substantially to carbon storage, with a total vegetation carbon stock of 2,341.78 kg. Geotagging successfully visualized stand distribution from seedling to mature tree stages, reflecting the dynamics of natural regeneration. The groundwater infiltration potential was also found to be relatively high, confirming the area’s role as a recharge zone. In addition, twelve bird species were recorded, with a Shannon-Wiener diversity index (H’ = 2.36), categorized as moderate. These findings underscore the strategic role of the Kehati Campus Forest as a conservation space, carbon sink, water regulator, and biodiversity habitat within the university environment.

carbon stock; geotagging; Water infiltration; Bird diversity; Campus forest

1. Cui, L., Chen, Y., Yuan, Y., Luo, Y., Huang, S., & Li, G. (2023). Comprehensive evaluation system for vegetation ecological quality: a case study of Sichuan ecological protection redline areas. Frontiers in Plant Science, 14. https://doi.org/10.3389/fpls.2023.1178 485

2. Jones, C. S., Thomas, F. M., Michael, D. R., Fraser, H., Gould, E., Begley, J., Wilson, J., Vesk, P. A., & Rumpff, L. (2022). What state of the world are we in? Targeted monitoring to detect transitions in vegetation restoration projects. Ecological Applications, 33(1). https://doi.org/10.1002/eap.2728

3. Dong, N. T., Tap, V. H., Mai, N. T. P., & Lien, N. T. H. (2020). Estimation of forest Carbon Stocks in Ba Be National Park, Bac Kan province, Vietnam. Forest and Society, 4(1), 195. https://doi.org/10.24259/fs.v4i1.7848

4. Besar, N. A., Suhaili, N. S., Fei, J. L. J., Sha’ari, F. W., Idris, M. I., Hatta, S. M., Kodoh, J., & Besar, N. A. (2020). Carbon stock estimation of mangrove forest in Sulaman Lake Forest Reserve, Sabah, Malaysia. Biodiversitas Journal of Biological Diversity, 21(12). https://doi.org/10.13057/biodiv/d2112 23

5. Reddy, C. S., Pasha, S. V., Jha, C. S., Dadhwal, V. K. 2015. Geospatial Characterization of Deforestation , Fragmentation and Forest Fites in Telangana State, India: Conservation Perspective. Environ Monit Assess, 187 (455).

6. Móricz, N., Tóth, T., Balog, K., Szabó, A., Rasztovits, E., & Gribovszki, Z. (2016). Groundwater uptake of forest and agricultural land covers in regions of recharge and discharge. iForest - Biogeosciences and Forestry, 9(5), 696 701. https://doi.org/10.3832/ifor1864 009

7. Müller, P., Puliti, S., & Breidenbach, J. (2025). Towards enhancing field‐based vegetation monitoring: A deep learning approach for species coverage estimation from ground‐level imagery. Methods in Ecology and Evolution. https://doi.org/10.1111/2041 210x.70024

8. Utami, I., & Putra, I. L. I. (2020). Ekologi kuantitatif. Metode Sampling dan Analisis Data Lapangan. Penerbit K Media.

9. Chave, J., Andalo, C., Brown, S., Cairns, M. A., Chambers, J. Q., Eamus, D., ... & Yamakura, T. (2005). Tree allometry and improved estimation of carbon stocks and balance in tropical forests. Oecologia, 145(1), 87-99

10. Hairiah, K., & Rahayu, S. (2007). Pengukuran Karbon Tersimpan di Berbagai Macam Penggunaan Lahan. Bogor: World Agroforestry Centre (ICRAF). DAPUS

11. Asdak, C. (2010). Hidrologi dan Pengelolaan Daerah Aliran Sungai. Yogyakarta: Gadjah Mada University Press.

12. Purwanto, A., Nugroho, S., & Lestari, H. (2020). Akurasi GPS dalam pengambilan data vegetasi hutan tropis. Jurnal Penelitian Kehutanan, 17(1), 23–32.

13. Arifin, Z., & Rahmawati, D. (2019). Pemetaan vegetasi dengan teknik geotagging berbasis GIS. Jurnal Geografi, 16(2), 45–56.

14. Soendjoto, M. A. (2016). Analisis pola spasial vegetasi dengan nearest neighbour method. Jurnal Biologi Tropis, 16(1), 77–86.

15. Bibby, C. J., Burgess, N. D., Hill, D. A., & Mustoe, S. (2000). Bird Census Techniques. Academic Press.

16. MacKinnon, J., Phillipps, K., & van Balen, B. (2010). Burung-burung di Sumatera, Jawa, Bali dan Kalimantan. LIPI & BirdLife International Indonesia Programme.

17. Odum, E. P. (1993). Fundamentals of Ecology. Saunders College Publishing.

18. Krebs, C. J. (1989). Ecological Methodology. Harper & Row.

19. Indrawan, M., Primack, R. B., & Supriatna, J. (2012). Biologi Konservasi: Biologi Konservasi.

20. Lamprecht, H. (1989). Silviculture in the tropics. Tropical forest ecosystems and their tree species-possibilities and methods for their long-term utilization

21. Soerianegara, I., & Indrawan, I. (2005). Ekologi hutan Indonesia [Indonesian forest ecology]. Bogor, ID: Faculty of Forestry, Bogor Agricultural University.

22. Orwa, C., A. Mutua, Kindt, R., Jamnadass, R., & S. Anthony. (2009). Agroforestree Database:a tree reference and selection guide version 4.0 (http://www.worldagroforestry.org/site s/treedbs/treedatabases.asp)

23. Feng, G., Huang, J., Xu, Y., Li, J., & Zang, R. (2021). Disentangling environmental effects on the tree species abundance distribution and richness in a subtropical forest. Frontiers in Plant Science, 12. https://doi.org/10.3389/fpls.2021.6220 43

24. De Freitas, W. K., Magalhães, L. M. S., De Resende, A. S., Da Costa Brasil, F., Da Rocha Vivès, L., Pinheiro, M. a. S., Filho, P. L., & Luz, R. V. (2017). Invasion impact of Artocarpus heterophyllus LAM. (Moraceae) at the edge of an Atlantic Forest fragment in the municipality of Rio de Janeiro, Brazil. DOAJ (DOAJ: Directory of Open Access Journals). https://doaj.org/article/c95797d13dd146 82977c6a76521cb094

25. Mustapha, Y., Adamu, S., & Inuwa, A. (2022). Importance Value Index (IVI) of Tree Species and Diversity of Baturiya Hadejia Wetland National Park, Jigawa State, Nigeria. International Journal of Trend in Scientific Research and Development, 6(2).

26. Asigbaase, M., Sjogersten, S., Lomax, B. H., & Dawoe, E. (2019). Tree diversity and its ecological importance value in organic and conventional cocoa agroforests in Ghana. PLoS ONE, 14(1), e0210557. https://doi.org/10.1371/journal.pone.021 0557

27. Lamury, Y. F., Pellondo’u, M., & Pramatana, F. (2023). STUDI KEANEKARAGAMAN JENIS VEGETASI PADA DAERAH TANGKAPAN AIR WAIBURA DESA KOBASOMA KAWASAN HUTAN LINDUNG LEWOTOBI ILEMUDA RTK. 106 KECAMATAN TITEHENA, KABUPATEN FLORES TIMUR. Wana Lestari, 5(02). https://doi.org/10.35508/wanalestari.v5i 02.14111

28. Juliarti, A., Ervayenri, E., & Azwin, A. (2022). RESPON PERTUMBUHAN KELENGKENG (Dimocarpus longan Lour.) TERHADAP AIR LIMBAH TERNAK LELE DI AGROFORESTRI RUSUNAWA UNILAK. Jurnal Hutan Tropis, 10(2), 208. https://doi.org/10.20527/jht.v10i2.14130

29. Rendra, T., Duryat, D., & Bintoro, A. (2018). ANALISIS VEGETASI DI BLOK INTI HUTAN LINDUNG REGISTER 21 KESATUAN PENGELOLAAN HUTAN XI KABUPATEN PESAWARAN. Jurnal Ilmiah Biologi Eksperimen Dan Keanekaragaman Hayati (J-BEKH), 5(1), 57–66. https://doi.org/10.23960/jbekh.v5i1.60

30. Samsoedin, I., & Heriyanto, N. (2010). STRUKTUR DAN KOMPOSISI HUTAN PAMAH BEKAS TEBANGAN ILEGAL DI KELOMPOK HUTAN SEI LEPAN, SEI SERDANG, TAMAN NASIONAL GUNUNG LEUSER, SUMATERA UTARA. Jurnal Penelitian Hutan Dan Konservasi Alam, 7(3), 299–314. https://doi.org/10.20886/jphka.2010.7.3. 299-314

31. Panjaitan, S., Wahyuningtyas, R. S., & Adawiyah, R. (2012). KONDISI LINGKUNGAN TEMPAT TUMBUH Shorea johorensis Foxw. DI AREAL HPH PT. AYA YAYANG INDONESIA, KALIMANTAN SELATAN. Jurnal Penelitian Dipterokarpa, 6(1), 11–22. https://doi.org/10.20886/jped.2012.6.1.1 1-22

32. Isah, M., Usman, A., & Gupa, M. A. (2025). Carbon sequestration potentials of selected tree species in University of Maiduguri campus, Maiduguri, Nigeria. Agriculture, Food and Natural Resources Journal, 4 (1).

33. Sari, K., Ismail, A. Y., & Hendrayana, Y. (2023). POTENSI BIOMASSA DAN CADANGAN KARBON DI KAWASAN HUTAN MANGROVE DESA KANCI KULON KECAMATAN ASTANAJAPURA KABUPATEN CIREBON. Deleted Journal, 5(1), 44–51. https://doi.org/10.25134/jfe.v5i1.9048

34. Kissling, W. D., Rahbek, C., & Böhning Gaese, K. (2010). Food plant diversity as broad-scale determinant of avian frugivore richness. Proceedings of the Royal Society B: Biological Sciences, 274(1611), 799–808

35. Bibby, C. J., Burgess, N. D., Hill, D. A., & Mustoe, S. (2000). Bird Census Techniques (2nd ed.). Academic Press.

36. Magurran, A. E. (2004). Measuring Biological Diversity. Blackwell Publishing.

37. Sekercioglu, C. H. (2006). Increasing awareness of avian ecological function. Trends in Ecology & Evolution, 21(8), 464–471

38. MacKinnon, J., Phillips, K., & van Balen, B. (2010). Burung-burung di Sumatera, Jawa, Bali, dan Kalimantan. LIPI & BirdLife International Indonesia.