Peatlands are the stretch of ecosystem landscape with unique characteristics, both physically, chemically, and biodiversity. Anthropogenic activities in peatland use and disasters pose a threat to the preservation of the peatland ecosystem, which has impacts toward abiotic to the element of biodiversity (biotic). The purpose of this research is to model how the threat of the peatland ecosystem by using spatial data modeling. The method in this research using cloud-based GIS data analysis from Google earth engine, modeling distance parameter to variable modeling of interaction among landscapes on the peatland, and weight sum the value over raster-based spatial layer to determinate the thereat in the peatland ecosystem. The results of this study found zones where hot spots often occur. Modeling with euclidean distance to all modeling variables (except temperature) gives a clear effect on how the threats from each landscape interact with each other. We found that the threat of peatland damage in the high threat class dominates the plantation area reaching 30.9% of the total peatland area, whereas the forest landscape only has a high threat with a percentage of 1.9% and a low threat which the ecosystem is stable and natural reaching over 34.7 %. From this model, we succeeded in bringing up the idea to determine the priority area for policies where need to be done in handling the protection of peatland ecosystems, especially in plantations where the highest percentage of the ecosystem threat is in the high level with integrated peatland management. Keywords: Peatland ecosystem, landscape, threat
Helmeted hornbill (Rhinoplax vigil) is a protected wildlife in Indonesia according to enactment no. 5, 1999 about Conservation of Natural Resources and its Ecosystems and Government Regulation no. 9, 1999 about plant and wildlife preservation. Helmeted Hornbill habitats spread in five country regions: Myanmar, Thailand, Malaysia (Malayan Peninsula and Serawak), Brunei, and Indonesia (Sumatra and Borneo). Silokek Geopark which located in Sijunjung Regency, West Sumatra Province, Indonesia is an identified location of Helmeted Hornbill habitat existence. Beside its uniqueness in physics, this bird also have an ecological function as seed dispersal in nature. The utilization of Remote Sensing (RS) technology and and Geographic Information System (GIS) is highly useful in identification the Helmeted Hornbill habitat distribution in this research. Geographic dateset used in this research are Landsat OLI 8 imagery, Shuttle Radar Topographic Model (SRTM), Coordinate points of Helmeted Hornbill existence and location assesment, and other dataset related to administration boundary in Silokek Geopark. This research aims to find conservation priority zone of Helmeted Hornbill in Silokek Geopark. By utilizing Maximun Entropy (MaxEnt) algorithm with finding points and location assessment, we can determine the distribution of Helmeted Hornbill habitat in Silokek Geopark based on habitat likeness. This research produces the model of conservation priority zones in geopark silokek which are distributed in hilly protected forest area and the distributions are concentrated in the center and noth east part of our researc area. This model is highly influenced by forest texture (25.7%), distance of patches (24.3%), and distance of settlement.
The sun bear is conservation mammal in Indonesia. The ecological problems as conflict among mammals and human often happen around wildlife, the one of the case is the conflict between sun bear (helarctos malayanus) with human. In Pasaman where around the anthropogenic landscape is bounded by natural forest as sun bear habitat. In this decade, the story has recorded about ±16 incidents. The aim of this research is to geospatial modeling the area of potential conflict between sun bear- human. The method in this research is to use natural logarithmic and regression logistic. The tool is geographical information system and maximum entropy. The result of this research, there has found the distribute energy each variable landscape ecosystem. The statistical model of the potential conflict it has spread on landscape ecosystem. The average value of AUC prediction in this model is at number of 0.91. The variable contribution which affect are forest edge at number of 39.2%, the alternative food (plantation) at number of 31.4%, and forest fragmentation at number of 16.9%.
Lanskap adalah sebuah area heterogen yang terbentuk dari berbagai tipe ekosistem yang saling berinteraksi. Aktifitas antropogenik akan berdampak langsung ataupun tidak langsung terhadap perubahan struktur landskap ini didorong dari perubahan penutup lahan. Adapaun tujuan dari penelitian ini adalah untuk melakukan identifikasi perubahan struktur landskap pada Kabupaten Sijunjung. Metode penelitian ini dilakukan dengan analisis data sekunder yaitu citra satelit Landsat melalui Google Earth Engine, dengan menerapkan algoritma klasifikasi random forest. Hasil penelitian ini ditemukan ditemukan kecenderungan perubahan pemanfaatan lahan pada Kabupaten Sinjunjung terjadi pada spot spot kawasan permukiman, dan perubahan ini berdampak langsung kepada perubahan struktur landskap diantaranya pergeseran pada kawasan transisi atau edge hutan, dan penyusutan luasan lanskap alami. Pertama kita mulai dengan perubahan luasan hutan, pada tahun 2013 pada angka 85.9% ,85.8% di 2017, dan 84.4% pada tahun 2021. Kemudian pertanian sawah 3.9 % di 2013, 3.8% di 2017, 3.9% pada tahun 2021. Perkebunan campuran 2.3% ada 2013 dan 2017 dan meningkat menjadi 2.6% di 2021, sedangkan perkebunan stabil pada angka 6.5% pada tahun 2013, 2017 dan 2021 meningkat pada angka 2.6%. Perubahan ini menyebabkan terjadinya perubahan pada struktur lanskap terutama pada edge hutan yang semakin berkurang akibat perubahan luasan dari hutan tersebut.
Tesso Nilo National Park is one of the protected areas designated as KPA by the Decree of the Minister of Forestry No.225/Menhut-II/2004 dated July 19, 2004 covering an area of 38,576 ha, then expanded again through the Decree of the Minister of Forestry No.663/Menhut/2009 dated 19 October 2009 with an area of ± 83,068 ha. The Tesso Nilo National Park area is experiencing the dynamics of land cover changes, namely the conversion of forest land which causes the forest area to become increasingly narrow in this area. With the reduction in forest area in this area, it causes a decrease in ecosystem network connectivity due to forest fragmentation that occurs, so that forests are separated and further apart. This study aims to analyze changes in land cover in the Tesso Nilo National Park area to find out information on changes in habitat ecosystems in the last 20 years. the observations were made using satellite images in 1999, 2010 and 2019. so that it can be seen the effect of forest fragmentation on ecosystems in the Tesso Nilo National Park area. From the results of the analysis, it was found that the area of forest cover in the Tesso Nilo National Park decreased from 1999 to 2019 and caused changes in the connectivity network of forest ecosystems, which was found in the study, the weakest connectivity separated forest fragments as far as 17394.47 meters due to forest cover fragmentation.
Dugong adalah mamalia laut milik Sirenia dengan nama ilmiah Dugong Dugon atau sering juga disebut sebagai sapi laut yang berstatus hukum sebagai hewan yang dilindungi di Indonesia. Di Pulau Bintan kasus penemuan duyung sering terjadi. Kondisi ekosistem perairan dengan hamparan vegetasi lamun mendukung kelangsungan hidup mamalia herbivora seperti Dugong. Tujuan dari penelitian ini adalah melakukan pemodelan spasial untuk mengetahui sebaran habitat duyung dengan menggunakan beberapa variabel lingkungan yang terjadi di ekosistem laut yang menjadi indikator penilaian penunjang keberlangsungan hidup dugong. Metode yang digunakan adalah analisis spasial raster untuk perancangan variabel lingkungan yang meliputi naturalized Euclidean distance, dan Maximum Entropy. Berdasarkan hasil kajian, wilayah yang berpotensi untuk sebaran habitat dugong di beberapa perairan Pulau Bintan yaitu Desa Berakit, Gunung Kijang, Kawal, dan Malang Temu. Parameter yang paling berpengaruh dalam pemodelan sebaran potensi habitat dugoong ini adalah padang lamun, jarak dari sungai, dan kedalaman laut. Habitat yang sangat mendukung kehidupan duyung ini didominasi oleh vegetasi tutupan rumput laut yang merupakan sumber makanan utama duyung.
Harimau Sumatera Phantera Tigris Sumatrae adalah satwa endemik pulau Sumatera yang saat ini berada pada red zone atau hewan terancam punah. Banyak faktor penyebab kepunahan, salah satunya adalah deforestasi dan pembukaan lahan untuk kebutuhan manusia menekan landskap hutan alami yang menjadi habitat spesies ini dan memicu terjadinya konflik satwa. Tujuan penelitian untuk melakukan pemetaan jenis landskap berdasarkan konsep ekologi landskap pada kawasan hutan, dan melakukan zonasi konflik satwa liar Harimau Sumatera dengan manusia. Metode yang digunakan adalah analisis spasial dengan sistem informasi geografis dan penginderaan jauh dan analisis deskriptif. Data yang digunakan adalah citra satelit sentinel tahun 2020. Riwayat kejadian konflik diperoleh dari BKSDA Provinsi Sumatera Barat data ini dianalisis dengan metode kernel density untuk merepresentasikan zona bahaya konflik. Secara keseluruhan pemanfaatan lahan yang tidak sesuai dengan penujukkan kawasan hutan dimana yang seharusnya ditutupi oleh lanskap hutan akan tetapi pemanfaatanya adalah pertanian lahan kering. Pada kawasan hutan lindung HL luas perkebunan mencapai 3.363 hektar, pada Kawasan suaka alam KSA 403 hektar dan pada kawasan TNKS Taman Nasional Kerinci Seblat 3192 Hektar. Dalam kurun waktu satu dekade terjadi 23 kali kejadian konflik harimau dengan manusia. Secara spasial konflik ini terfokus pada wilayah utara Kabupaten Pesisir Selatan, yang tersebar di antara dua landskap hutan yang terpisah
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