Plant diversity, structure and composition of vegetation around Barumun Watershed, North Sumatra, Indonesia

Rambey, R; Susilowati, Arida; Rangkuti, A B; Onrizal, Onrizal; Desrita, Desrita; Ardi, Rio; Hartanto, Adrian

doi:10.13057/biodiv/d220819

Cited by 12 publications

(11 citation statements)

References 17 publications

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“…The soil analysis protocol was undertaken following the guidance of soil analysis published by Estefan et al (2013). The vegetation measurement was performed using a nested method wherein every sampling plot was divided into several subplots to support the plant inventory based on their life stages: 1 m × 1 m (understorey), 2 m × 2 m (seedlings), 5 m × 5 m (saplings), 10 m × 10 m (poles), and 20 m × 20 m (trees) (Rambey et al 2021). Several parameters were measured from the vegetation survey, including species, plant density, and diameter at breast height.…”

Section: Data Collectionmentioning

confidence: 99%

Influence of land cover types on soil quality and carbon storage in Moramo Education Estate, Southeast Sulawesi, Indonesia

et al. 2022

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Abstract. Alam S, Ginting S, Hemon MT, Leomo S, Kilowasid LMH, Karim J, Nugroho Y, Matatula J, Wirabuana PYAP. 2022. Influence of land cover types on soil quality and carbon storage in Moramo Education Estate, Southeast Sulawesi, Indonesia. Biodiversitas 23: 4371-4376. This study investigated the influence of different land cover types on soil quality and carbon storage in Moramo Education Estate (MEE). Information is required as fundamental consideration to determine the best landscape management strategies for supporting soil conservation and climate change mitigation. Data were collected from three types of land cover generally found in this area, including forests, shrubs, and savannas. Three permanent sampling plots were randomly placed in every land cover as replicates with a size of 20 m × 20 m. Six parameters were used to describe the soil quality, i.e., soil acidity, soil organic carbon, total nitrogen, available phosphorus, exchangeable potassium, and cation exchange capacity. The above and belowground carbon storage from every plot was quantified. The soil quality and carbon storage among land cover types were compared using analysis of variance and Tukey’s honestly significant difference. Pearson’s correlation analysis was also applied to evaluate the relationship between soil quality and carbon storage. The results show that soil quality significantly differed in the exchangeable potassium and cation exchange capacity. A similar trend was also demonstrated in aboveground carbon storage. The highest average carbon storage was recorded in forests (150.50 ± 27.79 t ha?1), followed by shrubs (52.50 ± 15.02 t ha?1) and savannas (45.97 ± 4.42 t ha?1). The total carbon storage at different land covers was significantly correlated to soil acidity, available phosphorus, and cation exchange capacity. Carbon storage improved with the increased available phosphorus and cation exchange capacity. In contrast, carbon storage was negatively correlated with soil acidity. Overall, the land cover types significantly influenced soil quality and carbon storage in MEE.

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Section: Data Collectionmentioning

confidence: 99%

Influence of land cover types on soil quality and carbon storage in Moramo Education Estate, Southeast Sulawesi, Indonesia

et al. 2022

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“…Vegetation is an important component of preventing erosion and drought, regulating water and hydrology [1,2], improving soil physical, chemical, and biological properties [3], regulating the balance of carbon dioxide and oxygen in the air, conserving biodiversity, particularly Wallacea flora and fauna [4,5], effecting other biota in ecosystem [6,7], and supporting the ecotourism potential [8]. The effect varies depending on the structure and composition of the plants that comprise the area's vegetation formation [9].…”

Section: Introductionmentioning

confidence: 99%

Composition and diversity of tropical forest vegetation at Sibolangit tourism park, North Sumatra, Indonesia

Ulfa

Harahap

Rambey

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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Vegetation is an important component of preventing erosion and drought, regulating water and hydrology, improving soil physical, chemical, and biological properties, balancing the carbon dioxide and oxygen in the air, conserving biodiversity, effecting other biota in ecosystem, and supporting the ecotourism potential. The effect varies depending on the structure and composition of the plants that comprise the area's vegetation formation. Sibolangit tourism park, with an area of 24.85 Ha, was established in 1980 by Minister of Agriculture Decree No. 636/Kpts/Um/1980. This study aims to examine the importance value index and diversity index of species in the Sibolangit tourism park area. The data was sampled using a simple random sampling method with a 5% sampling intensity. The observation plots were randomly placed to cover all the study sites. Species, diameter, height, and the number of each individual were recorded during field observation. The study recorded a total of 67 species in Sibolangit Tourism Park. The dominant species at the tree stage was Pterocarpus indicus with an IVI of 28%. Mitrephora obtusa was the dominant species at the pole and sapling stages with the IVI of 52% and 35%, respectively. At the seedling stage, Strombosia ceylanica was the dominant with an IVI of 62%. The vegetation diversity at the study site was in the moderate range with the 2.71 of Shannon-Wiener diversity index.

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“…This occurs because part of the southern Gunungpati Sub-District area is at the foot of Mount Ungaran, largely dominated by conservation and catchment areas. The loss of conservation areas can certainly affect the management of water resources, such as the availability and condition of springs used to inhabit daily needs by residents (Sanjoto, 2020;Narendra et al, 2021;Rambey et al, 2021). Springs is groundwater found below the surface in water-saturated rocks (aquifers).…”

Section: Introductionmentioning

confidence: 99%

Land Use Change Analysis to Springs Conditions in Gunungpati Sub-District, Semarang City

2022

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Semarang City has the fastest development in Central Java Province, where the activities are no longer centralized but have expanded to the upper part of the region. The ongoing development certainly impacts changes with the increasing area of built-up land that converts to another cover, such as vegetation. The phenomenon impacts the balance of the environment, one of which is the source of springs. Therefore, this study aims to map the spatial distribution of the springs and identify their physical quality. A quantitative approach was used with spatial analysis. Meanwhile, data collection techniques used document research, high-resolution image interpretation and field surveys. Field surveys were conducted to test the accuracy of land use maps and measurements of discharge, temperature, pH and brightness of the springs. The results showed that there is a change in land use from 2016 - 2021 with an increase in settlements of around 77.25 hectares and commercial service buildings by 178.79 hectares. For land use with the largest decrease in area, agricultural land covers and mixed garden/vegetation covers an area of 207.01 and 50.57 hectares. There were 114 springs at the research site, of which 5% of the springs had a relatively large discharge above 10 liters/second, while the other 47% had a small discharge. For pH conditions, there were 6 springs with a pH value of less than 6. Land use change from vegetation to flying land impacts the reduction of the water supply in the soil. The impact can be seen by the non-production of several springs, where 21 springs have not been discharged. In conclusion, there is a change in land use with an increase in built-up from 2016 - 2021 by 256.04 hectares. The increase in built-up is partly in conservation areas, hence damaging several springs. Keywords : Land use change; Springs conditions; Gunungpati Sub-District Copyright (c) 2022 Geosfera Indonesia and Department of Geography Education, University of Jember This work is licensed under a Creative Commons Attribution-Share A like 4.0 International License

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Plant diversity, structure and composition of vegetation around Barumun Watershed, North Sumatra, Indonesia

Cited by 12 publications

References 17 publications

Influence of land cover types on soil quality and carbon storage in Moramo Education Estate, Southeast Sulawesi, Indonesia

Influence of land cover types on soil quality and carbon storage in Moramo Education Estate, Southeast Sulawesi, Indonesia

Composition and diversity of tropical forest vegetation at Sibolangit tourism park, North Sumatra, Indonesia

Land Use Change Analysis to Springs Conditions in Gunungpati Sub-District, Semarang City

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