Distribution and characteristics of the Makassar tarsius Tarsius fuscus fischer, 1804 sleeping nest in the tropical primary and secondary forests of South Sulawesi

Abstract Tarsius fuscus, whose distribution is limited to the southern part of South Sulawesi, Indonesia, is threatened by poaching and habitat loss, with the latter leading to the disappearance of its sleeping nest locations, despite the species’ wide range of habitat requirements. This study aimed to identify the distribution and characteristics of T. fuscus sleeping nests. Research took place in Bantimurung Bulusaraung National Park primary and secondary forest areas and Hasanuddin University Educational Forest. Sleeping nest locations were identified through vocalizations in the morning (4.30–6.00 am) and direct visual observations. Sleeping nest distribution maps were created using QGIS 3.16. Sleeping nests were found in karst rock shelters, Ficus trees, forest pandanus, and fallen tree debris, at elevations of 68–947 mdpl, 4–42° slopes, temperatures ranging 23.3–29.1°C, and distances to roads and settlements of 21.4–460.3 m and 325.9–1888.5 m, respectively. Tarsius fuscus tended to nest in primary forest rather than secondary forest, although this may also be caused by the larger proportion of primary forest. Protecting both primary and secondary forest is crucial, but particular focus should be given to the latter, owing to its susceptibility to human disturbance.

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Farmers’ Income and Land Cover Change at Lore Lindu National Park in Indonesia

Modern Applied Science ◽

10.5539/mas.v12n12p41 ◽

2018 ◽

Vol 12 (12) ◽

pp. 41

Author(s):

Rustam Abdul Rauf ◽

Adam Malik ◽

Isrun . ◽

Golar . ◽

Alimudin Laapo ◽

...

Keyword(s):

Land Cover ◽

Land Cover Change ◽

National Park ◽

Agricultural Land ◽

Secondary Forest ◽

Forest Area ◽

Farm Income ◽

Primary Forest ◽

Secondary Forests ◽

Lore Lindu National Park

Lore Lindu National Park in Central Sulawesi is one of the protected areas. Although it is protected, many of its areas are experiencing pressure and disruption by human activities. The purpose of this research was to know the relationship between farmers’ income and land cover change at Lore Lindu National Park. The research method was a participatory survey. Variables of incomes were sourced from farming and outside farming (forests). Data of land cover change were obtained using imagery in 2012, 2014 and 2016. The result of research is the average of farming income of IDR 1,387,077 (cocoa farming) and non-farm income of IDR 854,819 (forest honey, resin). In the last five years (2012-2016), the primary forest area decreased by 902.37 ha, while the secondary forest has shown an increase of 2,233.61 ha. The trend of land cover change was drastic, with change in the secondary dry land forest area from 6.9 ha (in 2012) to 2,240.5 ha (in 2016). The increased secondary forest area and the secondary forests have been converted into agricultural land and mixed gardens.

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ANALISIS PERUBAHAN TUTUPAN LAHAN PADA ZONASI PENGELOLAAN TAMAN NASIONAL BUKIT TIGA PULUH MENGGUNAKAN CITRA LANDSAT

Jurnal Hutan Tropis ◽

10.20527/jht.v8i2.9047 ◽

2020 ◽

Vol 8 (2) ◽

pp. 172

Author(s):

Eva Achmad ◽

Hamzah Hamzah ◽

Albayudi Albayudi ◽

Priambodo Priambodo

Keyword(s):

Land Cover ◽

National Park ◽

Secondary Forest ◽

Average Rate ◽

Rate Of Change ◽

Primary Forest ◽

Secondary Forests ◽

Open Land ◽

Central Sumatra ◽

Remote Sensing Methods

Bukit Tiga Puluh National Park is one of the important Nature Conservation Areasin central Sumatra because it has a variety of protected flora and fauna. The aim of this research was to observe the rate of change of land cover in the period 2002-2016 in Bukit Tiga Puluh National Park. The research used remote sensing methods by utilizing satellite imagery data to generate land cover data. This study used the classification of supervised images, where the image classes are self-defined based on field data in the form of coordinate points marked with GPS. The study found that land cover has changed from 2002-2016, where thearea of primary forest has decreased 5.422,80 hectares or with average rate 387,34 hectares/year, secondary forest had an increase of 103,00 hectares or with average rate of 7.35 hectares / year, open land increased 2,243.13 hectares or at an average rate of 160.22 hectares / year, dryland agriculture increased 1,929.69 hectares with an average rate of 137, 83 hectares / year, dryland farming mixed with shrubs increased 641.32 hectares or with an average rate of 45.80 hectares / year, and shrubs increased 505.66 hectares or with an average rate of 36.11 hectares / year. The results of the classification in the management zone, the core zone is dominated by primary and secondary forests while in the jungle zone there is a closure other than forests such as agriculture, shrubs and open land as much as 0.05%.

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Seed mass and light requirements for regeneration in Southeast Asian rain forest

Canadian Journal of Botany ◽

10.1139/b95-090 ◽

1995 ◽

Vol 73 (6) ◽

pp. 817-826 ◽

Cited By ~ 59

Author(s):

D. J. Metcalfe ◽

P. J. Grubb

Keyword(s):

Phylogenetic Analysis ◽

Rain Forest ◽

Secondary Forest ◽

Seed Mass ◽

Primary Forest ◽

Secondary Forests ◽

Light Requirement ◽

Lowland Rain Forest ◽

Light Requirements ◽

Shade Tolerant Species

Seed mass values are given for 140 species of primary lowland rain forest and associated secondary forests in Singapore. Among shade-tolerant species of primary forest there is a trend for a decrease in mean seed mass with tall trees > woody climbers > small trees > shrubs > herbs; the differences between tall trees and small trees or shrubs or herbs, and between herbs and small trees or woody climbers are significant. There are a few light-demanding herbs or shrubs in the primary forest; among small trees, light demanders have significantly lower seed mass values than shade tolerators. In 9 out of 13 comparisons within taxa including both shade tolerants and light demanders the former had appreciably larger seeds than the latter. Two out of 13 comparisons involved very small seeded shade tolerators, and one a notably large-seed light demander. Many shade-tolerant herbs, shrubs, and trees have seed mass values much smaller than those of trees of secondary forest conventionally regarded as small seeded, and exploit moist, litter-free sites, e.g., steep microslopes. The trees of secondary forests on degraded soils do not differ significantly in seed mass from those on nondegraded soils. Key words: seed mass, light requirement, regeneration, tropical rain forest, phylogenetic analysis.

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Shrimp abundance and habitat relationships in tropical rain-forest streams, Sarawak, Borneo

Journal of Tropical Ecology ◽

10.1017/s0266467403003432 ◽

2003 ◽

Vol 19 (4) ◽

pp. 387-395 ◽

Cited By ~ 20

Author(s):

Tomoya Iwata ◽

Mikio Inoue ◽

Shigeru Nakano ◽

Hitoshi Miyasaka ◽

Atsushi Doi ◽

...

Keyword(s):

Rain Forest ◽

Tropical Rain Forest ◽

Secondary Forest ◽

High Water ◽

Water Velocity ◽

Primary Forest ◽

Microhabitat Use ◽

Secondary Forests ◽

Habitat Differences ◽

Forest Streams

Microhabitat use and habitat-abundance relationships of four freshwater shrimps, Atyopsis moluccensis, Macrobrachium pilimanus, Macrobrachium trompii and Macrobrachium neglectum, were surveyed in tropical streams running through primary and secondary forests in Borneo, East Malaysia. Underwater observations revealed that A. moluccensis preferred relatively high water velocity and a boulder substrate. Macrobrachium pilimanus also preferred high water velocity and a cobble substrate, whereas M. trompii occupied stream margins with slow current and fine substrates (from POM (particulate organic matter) to pebbles). In contrast, M. neglectum was distributed relatively evenly through the stream channel. The abundance of A. moluccensis, M. pilimanus and M. trompii in the stream reaches was best explained by the abundance of boulders, cobbles and POM, respectively, suggesting that the amount of preferred microhabitat is an important factor affecting shrimp abundances in the tropical rain-forest streams. The primary-forest reaches were dominated by coarse substrates, such as cobbles and boulders, while a great proportion of the streambeds in the secondary-forest reaches were covered with sand. Owing probably to such habitat differences, the abundance of both A. moluccensis and M. pilimanus, which preferred coarse substrates, was less in the secondary- than in the primary-forest reaches. These suggested that loss of preferred habitat, namely decreased coarse substrate availability, by sedimentation resulting from riparian deforestation had altered the shrimp assemblage structures.

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A comparison of ground-dwelling small mammal communities in primary and secondary tropical rainforests in China

Journal of Tropical Ecology ◽

10.1017/s0266467400009421 ◽

1996 ◽

Vol 12 (2) ◽

pp. 215-230 ◽

Cited By ~ 16

Author(s):

De-Lin Wu ◽

Jia Luo ◽

Barry J. Fox

Keyword(s):

Small Mammal ◽

Dominant Species ◽

Secondary Forest ◽

Southern China ◽

Rattus Rattus ◽

Mantel Test ◽

Primary Forest ◽

Secondary Forests ◽

Small Mammal Communities ◽

Mammal Communities

ABSTRACTTrapping was conducted in primary and secondary forests to investigate the effects of past logging on small mammal communities. Thirteen I-ha sites were snap-trapped for three consecutive days in tropical monsoon rainforest in Xishuangbanna Nature Reserve, southern China. A total of 3900 trap-days yielded 198 captures, of which 118 were in the primary forest and 80 in the secondary forest. A total of 12 ground-dwelling species (eight Rodentia, Muridae; three Insectivora, Soricidae; one Insectivora, Erinaceidae) were caught, five (all Rodentia, Muridae) occurred in the primary forest and 11 in the secondary forest. The most abundant species was Niviventer confucianus, accounting for 62% and 39% of the total captures in the primary and the secondary forests, respectively. In the secondary forest the mean abundances of the two dominant species, N. confucianus and Maxomys surifer, were reduced, and a non-commensal form of Rattus rattus disappeared, but N. fulvescens showed no change while Mus pahari increased. The seven species which occurred only in secondary forest had very low abundance. Overall, the multivariate Mantel test showed the two communities to be significantly different. After logging, species diversity increased, and the two dominant species had increased body mass and their mean abundance decreased.

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Seed predation, pathogens and germination in primary vs. secondary cloud forest at Maquipucuna Reserve, Ecuador

Journal of Tropical Ecology ◽

10.1017/s0266467415000127 ◽

2015 ◽

Vol 31 (4) ◽

pp. 375-378 ◽

Cited By ~ 5

Author(s):

Randall W. Myster

Keyword(s):

Seed Predation ◽

Human Disturbance ◽

Secondary Forest ◽

Cloud Forest ◽

Primary Forest ◽

Natural Disturbances ◽

Seed Loss ◽

Closed Canopy ◽

Piper Aduncum ◽

Maquipucuna Reserve

Abstract:Because the fate of the seed rain has long been shown to be critical to understanding forest recruitment and regeneration, seed predation, seed pathogens and germination among different species was examined in primary (closed-canopy vs. tree-fall gap) and in secondary (banana vs. sugarcane vs. seeded pasture) cloud forest at Maquipucuna Reserve, Ecuador. I found (1) seed predation took more seeds than either seed pathogenic disease or germination for all tree seed species and in both forests, where the level of seed loss to predation was greatest in the closed-canopy primary forest, second largest in the tree-fall gaps and less in recovering banana, sugarcane and pasture; (2) for pathogens these trends were reversed; and (3) most seeds, that were not taken by predators or pathogens, germinated. Cecropia sp. seeds in the tree-fall gaps and Otoba gordoniifolia seeds in both closed-canopy forest and tree-fall gaps were the most significantly different among all treatments in primary forest and Solanum ovalifolia seeds in banana fields and Piper aduncum in all fields were the most significantly different among all treatments in secondary forest. I conclude that forests may recover faster after human disturbance (here agriculture) than after natural disturbances (here tree-fall).

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Forest Structure, Nutrients, and Pentaclethra macroloba Growth after Deforestation of Costa Rican Lowland Forests

ISRN Ecology ◽

10.1155/2013/414357 ◽

2013 ◽

Vol 2013 ◽

pp. 1-10 ◽

Cited By ~ 6

Author(s):

Daniela J. Shebitz ◽

William Eaton

Keyword(s):

Nutrient Dynamics ◽

Secondary Forest ◽

Leguminous Plant ◽

Primary Forest ◽

Secondary Forests ◽

Ecosystem Recovery ◽

Neotropical Forests ◽

Vegetation Diversity ◽

Organic C ◽

Relative Contribution

Succession following deforestation in Neotropical forests has been investigated extensively, yet rarely have studies connected nutrient dynamics with vegetation. This study was conducted in lowland wet forests of Maquenque, Costa Rica. The objectives were (1) to compare carbon (C), nitrogen (N), and phosphorus (P) characteristics and understory vegetation diversity between regenerating forests and primary forests; and (2) to use these variables to evaluate P. macroloba’s successional role. Four 300 m2 plots were established in primary and secondary forests where P. macroloba was the dominant N-fixing tree. Soil and vegetation data were collected from 2008 to 2010. Values of indicators of C, N, and P cycle activity were generally greater in primary than in secondary forest soils. Efficiency of organic C use and the relative contribution of respiration and organic C to soil biomass were also greater in the primary forest. These trends corresponded with greater richness, biomass, and cover of total and leguminous plant species, greater volume of P. macroloba in primary stands, and greater density of P. macroloba in secondary stands. As cleared regions of former primary forest regenerate, P. macroloba is the important dominant N-fixing tree and a critical driver of C, N, and P recuperation and ecosystem recovery.

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Study of changes in carbon stock in primary and secondary forest in protection forest of Soya Village, Ambon City

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/883/1/012078 ◽

2021 ◽

Vol 883 (1) ◽

pp. 012078

Author(s):

L Siahaya ◽

L Pelupessy ◽

Y D Komul ◽

A Sahupala ◽

T E Siahaya ◽

...

Keyword(s):

Organic Matter ◽

Carbon Content ◽

Water Content ◽

Carbon Stock ◽

Secondary Forest ◽

Primary Forest ◽

Secondary Forests ◽

Protection Forest ◽

Litter Biomass ◽

Wet Weight

Abstract This study aimed to determine changes in litter biomass and the effect of changes in litter biomass on carbon stock changes in Permanent Sample Plots of primary and secondary forest in the Protection Forest of Soya Village, Ambon City, for three years of measurement. This study used a sampling method with harvesting/collection and using laboratory analysis, where the working procedure used the SNI: 7724 guidelines. The data taken includes the water content of litter, total wet weight, dry weight of the sample, and wet weight of the sample to calculate the range of biomass or organic matter and carbon content of litter organic matter. The results showed that the average value of water content in both primary and secondary forests decreased. The depletion degree was higher in the first year than the second and third year. The biomass content of litter in primary forests decreased from year to year for three years of measurement. It causes a decrease in the carbon content in the primary forest. In contrast, the biomass content in secondary forests increased from year to year and increased carbon content from year to year for three years of measurement.

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Birds of primary and secondary forest and shrub habitats in the peat swamp of Berbak National Park, Sumatra

F1000Research ◽

10.12688/f1000research.13996.2 ◽

2018 ◽

Vol 7 ◽

pp. 229 ◽

Cited By ~ 2

Author(s):

Kevin Darras ◽

Dedi Rahman ◽

Waluyo Sugito ◽

Yeni Mulyani ◽

Dewi Prawiradilaga ◽

...

Keyword(s):

National Park ◽

Secondary Forest ◽

Iucn Red List ◽

Wildlife Trade ◽

Distribution Area ◽

Primary Forest ◽

Feeding Guilds ◽

Swamp Forest ◽

Mobile Species ◽

Peat Swamp

Background: Tropical lowland rainforests are threatened by deforestation and degradation worldwide. Relatively little research has investigated the degradation of the forests of South-east Asia and its impact on biodiversity, and even less research has focused on the important peat swamp forests of Indonesia, which experienced major losses through severe fires in 2015. Methods: We acoustically sampled the avifauna of the Berbak National Park in 2013 in 12 plots split in three habitats: primary swamp forest, secondary swamp forest, and shrub swamp, respectively representing non-degraded, previously selectively logged, and burned habitats. We analysed the species richness, abundance, vocalisation activity, and community composition across acoustic counts, plots, feeding guilds and IUCN Red List categories. We also analysed community-weighted means of body mass, wing length, and distribution area. Results: The avifauna in the three habitats was remarkably similar in richness, abundance and vocalisation activity, and communities mainly differed due to a lower prevalence of understory insectivores (Old-World Babblers, Timaliidae) in shrub swamp. However primary forest retained twice as many conservation-worthy species as shrub swamp, which harboured heavier, probably more mobile species, with larger distributions than those of forest habitats. Conclusions: The National Park overall harboured higher bird abundances than nearby lowland rainforests. Protecting the remaining peat swamp forest in this little-known National Park should be a high conservation priority in the light of the current threats coming from wildlife trade, illegal logging, land use conversion, and man-made fires.

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Drivers of tropical soil invertebrate community composition and richness across tropical secondary forests using DNA metasystematics

Scientific Reports ◽

10.1038/s41598-020-75452-4 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Katie M. McGee ◽

Teresita M. Porter ◽

Michael Wright ◽

Mehrdad Hajibabaei

Keyword(s):

Land Use ◽

Community Composition ◽

Tropical Forests ◽

Secondary Forest ◽

Soil Invertebrates ◽

Primary Forest ◽

Soil Invertebrate ◽

Secondary Forests ◽

Invertebrate Community ◽

Invertebrate Communities

Abstract Tropical forests are fundamental ecosystems, essential for providing terrestrial primary productivity, global nutrient cycling, and biodiversity. Despite their importance, tropical forests are currently threatened by deforestation and associated activities. Moreover, tropical regions are now mostly represented by secondary forest regrowth, with half of the remaining tropical forests as secondary forest. Soil invertebrates are an important component to the functioning and biodiversity of these soil ecosystems. However, it remains unclear how these past land-use activities and subsequent secondary forest developments have altered the soil invertebrate communities and any potential ecological consequences associated with this. DNA metabarcoding offers an effective approach to rapidly monitor soil invertebrate communities under different land-use practices and within secondary forests. In this study, we used DNA metabarcoding to detect community-based patterns of soil invertebrate composition across a primary forest, a 23-year-old secondary forest, and a 33-year-old secondary forest and the associated soil environmental drivers of the soil invertebrate community structure in the Maquenque National Wildlife Refuge of Costa Rica (MNWR). We also used a species contribution analysis (SIMPER) to determine which soil invertebrate groups may be an indication of these soils reaching a pre-disturbed state such as a primary forest. We found that the soil invertebrate community composition at class, order, family, and ESV level were mostly significantly different across that habitats. We also found that the primary forest had a greater richness of soil invertebrates compared to the 23-year-old and 33-year-old secondary forest. Moreover, a redundancy analysis indicated that soil moisture influenced soil invertebrate community structure and explained up to 22% of the total variation observed in the community composition across the habitats; whereas soil invertebrate richness was structured by soil microbial biomass carbon (C) (Cmic) and explained up to 52% of the invertebrate richness across the primary and secondary forests. Lastly, the SIMPER analysis revealed that Naididae, Entomobryidae, and Elateridae could be important indicators of soil and forest recuperation in the MNWR. This study adds to the increasing evidence that soil invertebrates are intimately linked with the soil microbial biomass carbon (Cmic) and that even after 33 years of natural regrowth of a forest, these land use activities can still have persisting effects on the overall composition and richness of the soil invertebrate communities.

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