Pendugaan Kerapatan Vegetasi Menggunakan NDVI dan Cadangan Karbon di Zona Inti Taman Nasional Gunung Halimun Salak
Date
2023Author
Abdilllah, Sultan
Istomo
Hartoyo, Adisti Permatasari Putri
Metadata
Show full item recordAbstract
Increasing concentrations of greenhouse gas emissions causes climate change and
global warming. Gunung Halimun Salak National Park (GHSNP) potentially mitigate CO2
emissions change by increasing carbon stocks. This study aimed to estimate vegetation
density using the Normalized Difference Vegetation Index (NDVI), biomass and
aboveground carbon stocks, as well as to analyze the relationship of NDVI with vegetation
diversity and carbon stocks in the core zone of GHSNP. The method used was vegetation
analysis and carbon estimation using allometric and destructive testing for seedling and
understory levels. The total plots were 15 (a plot size of 50 × 50 m). NDVI was categorized
into three classes, specifically class 1 (0,147 – 0,276), class 2 (0,276 – 0,321), and class 3
(0,321 – 0,493). The core zone of GHSNP consists of 82 plant species from 53 families.
The most families found were Euphorbiaceae, Lauraceae, Moraceae, Rubiaceae, and
Urticaceae. The research location was dominated by african wood (Maesopsis eminii). The
average biomass and carbon concentrations based on density class were 124,46 ton/ha
dan 58,50 ton/ha, respectively. Carbon concentration strongly correlated with basal area
(r = 68,9%). NDVI values had a positive correlation and can be used to estimate species
abundance, tree density, Shannon-Wiener index, LBDS, and carbon concentration.
Collections
- UT - Silviculture [1361]