DOI: https://doi.org/10.14710/jil.22.1.93-99

The Composition, Structure, and Standing Carbon Stock of Teak Based Agroforestry Systems in Gundih, Grobogan Regency, Central Java

1Department of Biology Education, Faculty of Teacher Training and Education, Universitas Muhammadiyah Surakarta., Indonesia

2Environmental Study Centre, Universitas Muhammadiyah Surakarta, Jl. A. Yani Tromol Pos I, Pabelan, Kartasura, Surakarta 57162, Jawa Tengah, Indonesia, Indonesia

Received: 21 Jan 2023; Revised: 31 Jul 2023; Accepted: 21 Sep 2023; Available online: 17 Nov 2023; Published: 10 Dec 2023.
Editor(s): Budi Warsito

Citation Format:
Abstract

The teak-based agroforestry system in Gundih, Grobogan Regency, Central Java Province is potentially equivalent to a secondary forest, based on the biodiversity, carbon stock, and utility. This study is prompted by the lack of research on tree vegetation analysis in teak-based agroforestry systems. The aim of this study is to determine the composition and structure of tree vegetation in agroforestry systems within the Gundih area. The research method used plots measuring 20 x 20 m2, in a sampling area of 1 ha and with plot placement using the Purposive Sampling method. The results show that there are 12 tree species from 9 families with a total population of 341 trees/ha. The two tree species with the highest Important Value (IV) are Tectona grandis L.f (93,48) and Swietenia mahagoni (L.) Jacq (66,78). The tree diversity of teak-based agroforestry systems is classified as moderate with an H’ value of 1,81. The carbon stock of tree stands in the agroforestry system is 64,43 MgC/ha. It can be concluded that teak-based agroforestry has the potential to be an option for environmental conservation.

Note: This article has supplementary file(s).

Fulltext View|Download |  Research Instrument
Map of research location
Subject
Type Research Instrument
  View (7MB)    Indexing metadata
Keywords: Agroforestry; Teak; Carbon stock; Diversity; Tree

Article Metrics:

Article Info
Section: Research Article
Language : EN
Recent articles
Tumbuhan Air Invasif Berpotensi sebagai Fitoremediator Bahan Organik Total (BOT) di Waduk Darma Kuningan Pengendalian Pencemaran Air dengan API Separator Pada Air Limbah Produksi Kilang Ekstraksi Analisis Faktor Spasial Terhadap Kejadian Demam Berdarah Dengue Menggunakan Pendekatan Geographically Weighted Regression di Kota Pekanbaru, Provinsi Riau More recent articles
Most cited articles
Emisi Gas Rumah Kaca dan Hasil Padi dari Cara Olah Tanah dan Pemberian Herbisida Di Lahan Sawah MK 2015 BIOAKUMULASI LOGAM BERAT TIMBAL (Pb) DAN SENG (Zn) PADA KERANG DARAH (Anadara granosa L.) dan KERANG BAKAU (Polymesoda bengalensis L.) DI PERAIRAN TELUK KENDARI Review: Mekanisme Akumulasi Logam Berat di Ekosistem Pascatambang Timah RESOLUSI KONFLIK ANTARA MASYARAKAT LOKAL DENGAN PERUSAHAAN PERTAMBANGAN (STUDI KASUS: KECAMATAN NAGA JUANG, KABUPATEN MANDAILING NATAL, PROVINSI SUMATERA UTARA) KEBIJAKAN PENGELOLAAN LINGKUNGAN DI KAWASAN KENDENG UTARA PROVINSI JAWA TENGAH More cited articles
  1. Ariyanti, D., Wijayanto, N., & Hilwan, I. (2018). Diversity of plant types and carbon storage in various land use types in Pesisir Barat District, Lampung Province. Jurnal Silvikultur Tropika, 9(3), 167–174. [Bahasa Indonesia]
  2. Baderan, D. W., & Utina, R. (2021). Biodiversity of flora and fauna of east biluhu beach. Deepublish. Yogyakarta. [Bahasa Indonesia]
  3. Banuwa, I. Sukri. (2013). C-storage in various coffee-based farming patterns. Proceedings of the National Seminar on Soil and Water Conservation Society of Indonesia, 595–609. [Bahasa Indonesia]
  4. Candra, D., Nuryati, R., & Nuryaman, H. (2019). Agroforestry as Multifunctional Farming Businesses. Universitas Siliwangi. Tasikmalaya. [Bahasa Indonesia]
  5. Djajapertjunda, S., & Djamhuri, E. (2013). Indonesian forests and forestry from era to era, IPB Press. Bogor. [Bahasa Indonesia]
  6. ForestWorks ISC. 2014. Learning resource for undertake carbon stock sampling of forests and plantations. Commonwealth of Australia: 1+52 hlm
  7. Gunawan, H., Sugiarti, Wardani, M., & Mindawati, N. (2019). 100 nusantara tree species targeted for ex-situ conservation in biodiversity parks. IPB Press. Bogor. [Bahasa Indonesia]
  8. Gustiani, D., Jumari, & Murningsih. (2019). Structure and composition of tree vegetation in uwi-uwian habitat (Dioscorea spp.) in Jabungan Village and Undip Tembalang Campus Forest, Semarang. Jurnal Akademika Biologi, 8(1), 21–29. [Bahasa Indonesia]
  9. Hairah, K., Sunaryo, & Widianto. (2015). Agroforestry systems in Indonesia Word Agroforestry Centre. Bogor [Bahasa Indonesia]
  10. Hariyanto, Fajar, & Suryani, T. (2017). Study of the diversity plants as potential natural dyes for batik in Sidomulyo Village, Ampel District, Boyolali Regency (Thesis). Universitas Muhammadiyah Surakarta. Surakarta. [Bahasa Indonesia]
  11. Heriyanto, N. M., Priatna, D., & Samsoedin, I. (2020). Standing structure and carbon sequestration in the secondary forest of the Muara Merang Forest Group, South Sumatra. Jurnal Sylva Lestari, 8(2), 230–240. [Bahasa Indonesia]
  12. Hidayat, S., & Napitupulu, R. (2015). Book of medicinal plants. Penebar Swadaya. Jakarta. [Bahasa Indonesia]
  13. ICRAF. (1993). International Centre for Research in Agroforestry: Annual Report 1993. Nairobi
  14. Kantun, W. (2020). Fisheries biology and management aspects (B. Nugraha (ed.)). IPB Press. Bogor. [Bahasa Indonesia]
  15. Karmilasanti, & Fajri. (2020). Structure and composition of vegetation types in a secondary forest: A case study of KHDTK Labanan, East Kalimantan Province. Jurnal Penelitian Hutan Tanaman, 17(2), 69–85. [Bahasa Indonesia]
  16. Ketterings, Q., Coe, R., Noordwijk, M. Van, Ambagau, Y., & Plam, C. (2001). Reducing uncertain in the use of allometric biomass equation for predicting above ground tree biomass in mixed secondary forest. Forest Ecology and Management, 146(1–3), 199–209
  17. Koirala, A., Kizha, A. R., & Baral, S. (2017). Modeling height-diameter relationship and volume of teak (Tectona grandis L. F.) in Central Lowlands of Nepal. Journal of Tropical Forestry and Environment, 7(1) 28 – 42
  18. Komul, Y. D., & Hitipeuw, J. C. (2022). Abundance of secondary forest vegetation types previously burned in Kamal Village, West Seram District. Jurnal Hutan Pulau-Pulau Kecil, 6(1), 13–21. [Bahasa Indonesia]
  19. Kurniasari, F. L., Raya, A. B., & Witjaksono, R. (2020). Farmer’s motivation to utilize understorey-cropping system in BKPH Purworejo KPH Kedu Selatan. Agro Ekonomi, 30, (2), 151 – 166
  20. Mansur, I. (2015). The business and cultivation 18 commercial timber. Penebar Swadaya. Jakarta. [Bahasa Indonesia]
  21. Mueller-Dombois, D., & Ellenberg, H. (1974). Aims and Methods of Vegetation Ecology. John Wiley and Sons. New York
  22. Muhammad, A. (2021). Species diversity in the Jompie Botanical Garden, Bukit Harapan Village, Soreang District, Parepare City. Universitas Muhammadiyah Makassar. Makassar. [Bahasa Indonesia]
  23. Naharuddin. (2020). Vegetation Diversity Index and Similarity in Secondary Forests in the Powelua Sub-watershed, Donggala Regency. Jurnal Agroland, 13(3), 260–264. [Bahasa Indonesia]
  24. Nomleni, F., Manu, T. S. N., Daud, Y., & Meha, A. M. (2020). Textbook of ethnobotany of the local community of Kakaniuk village. Lakeisha. Klaten. [Bahasa Indonesia]
  25. Price, P. W., Denno, R. F., Eubanks, M. D., Finke, D. L., & Kaplan, I. (1997). Insect Ecology. University Press, Cambridge, United Kingdom
  26. Prijono, S. (2021). Land management in coffee plantations. UB Press. Malang. [Bahasa Indonesia]
  27. Purusottama, A., Budihardjo, A., Elfriede, D. P., Hunggo, H., Setiawati, I. B., Istijanto, Kusmulyono, S., Prasetya, P., Rachman, Rathria, A., Aguatiawan, S., Cunha, W. Da, & Hartono, Y. (2022). The latest economic business phenomena. Prasetiya Mulya Publishing. Jakarta. [Bahasa Indonesia]
  28. Ratri, A. D. Y. S., Pujiasmanto, B., & Yunus, A. (2015). Shade effects and water stress on growth and production of turmeric in Kismantoro, Wonogiri. Caraka Tani – Journal of Sustainable Agriculture, 30(1), 1 – 6
  29. Rohmatinah, A., & Martin, L. (2015). Estimation of volume, biomass and carbon of Jati Unggul Nusantara Community Forests, Dungus Village, Datangan District, Madiun Regency. Agritekonologi, 16(1), 24–47. [Bahasa Indonesia]
  30. Roziaty, E., & Pristiwi, Y. (2020). Species Diversity in agroforestry systems in Surajaya Village, Pemalang District, Pemalang Regency, Central Java. Bioeksperimen, 6(2), 76–88. [Bahasa Indonesia]
  31. Safe’i, R., Kaskoyo, H., Darmawan, A., & Haikal, F. F. (2021). Tree species diversity as an indicator of protected forest health (Case study in protected forest areas managed by HKM Beringin Jaya). Jurnal Belantara, 4(1), 89–96. [Bahasa Indonesia]
  32. Santhyami, Basukriadi, A., Patria, M. P., & Abdulhadi, R. (2018). The comparison of aboveground C-stock between cacao-based agroforestry system and cacao monoculture pratice in West Sumatera, Indonesia. Biodiversitas, 19(2), 472–479
  33. Santhyami, Basukriadi, A., Patria, M. P., & Abdulhadi, R. (2020). Tree community composition and structure of cacao (Theobroma cacao L.) Based Agroforestry in West Sumatera, Indonesia. Bioeksperimen, 6(1), 54–55
  34. Santhyami, Basukriadi, A., Patria, M. P., & Abdulhadi, R. (2021). Tree community structure and aboveground carbon stock of sacred forest in Pasaman, West Sumatera. Biotropia, 28(3), 253–262
  35. Saroh, I., & Krisdianto. (2020). The ecological benefit of tree canopy on microclimate in green open spaces in urban areas. Jurnal Hutan Dan Masyarakat, 12(2), 136–143. [Bahasa Indonesia]
  36. Shannon CE, Weiner W. 1963. The mathematical theory of communication. Urbana University of Illinois Press. Illinois
  37. Subagia, I. N., Suwantana, I. G., Sudina, I. G. N., Surada, I. M., Relin, Rema, I. N., Tirta, I. M. D., Adnyana, P. E. S., Giri, I. Putu A. A., & Aryana, I. M. P. (2021). Planting Upkara. Nilacakra. Bali. [Bahasa Indonesia]
  38. Suhartati, T., Purwanto, R. H., Setyarso, A., & Sumardi. (2021). Characteristics of people's forest management, a systems perspective (Study of Semoyo Village, Gunung Kidul Regency). Jurnal Hutan Tropis, 9(3), 355–364. [Bahasa Indonesia]
  39. Sumilia, Akhir, N., & Syarif, Z. (2019). Cocoa productivity and plant diversity in various cocoa-based agroforestry systems in Pasaman District, West Sumatra. Jurnal Agroforestri Indonesia, 2(2), 59. [Bahasa Indonesia]
  40. Suyana, J., Widijanto, H., Muliawati, E. S., Melida, O., & Damayanti, R. (2021). Vegetation biomass, vegetation carbon and soil carbon estimation on various types of community forest standing. Prosiding Seminar Nasional dalam Rangka Dies Natalis ke-45 UNS Tahun 2021, 1279–1291. [Bahasa Indonesia]
  41. Utomo, M.M.B. (2020). Resilience system of complex agroforestry with Albizia as the main stand in West Java. Jurnal Agroforestri Indonesia, 3(1). 45 – 54
  42. Widiyanto, A. (2016). Agroforestry and Its Role in Maintaining Hydrological and Conservation Functions. Al-Basia, 9(2), 55–68. [Bahasa Indonesia]
  43. Widiyanto, D. (2019). Local food potentials and agroecology in Yogyakarta Special Province, Indonesia. Forum Geografi, 33(1), 64–81
  44. Yulliana, H., & Syafrudin, M. (2021). Leaf Pollutant Content in Trees at UPT LSHK Arboretum, Mulawarman University. Jurnal Penelitian Ekosistem Dipterokarpa, 7(1), 1–10. [Bahasa Indonesia]

Last update:

No citation recorded.

Last update: 2024-07-04 05:29:05

No citation recorded.