Time budget of daily activity of silvery lutung (Trachypithecus cristatus) in coastal forest habitat at Gunung Padang, West Sumatra

Primate’s time budgets are the important aspect to investigate their ecological influences in their habitat. This study collected data on daily activities in a group of silvery lutung (Trachypithecus cristatus) in coastal forest habitat at Gunung Padang, West Sumatra, Indonesia from August 2018 – July 2019, using instantaneous scan sampling method with 10-min intervals. This study analyzed the activity of wild silvery lutungs in study site, with emphasis on the age-sex differences and montly changes in their activity budget. This group spent most of time resting in their daily activity (average 47.50% of the total daytime resting), then followed by moving, feeding, grooming and other activities (conflict, nursing, urinating-defecating, playing, etc.). Resting peaked simultaneously in the morning and peaked back in the afternoon while moving and feeding decreased in this period. Their time budgets showed significant monthly variation: they spent a higher value of time feeding from September - Oktober 2018. They also differed among different sex-age classes: nursing females spent more time for actively moving, whereas adult male and single females devoted more time to resting, feeding, and grooming. These differences in their time budgets may reflect fundamental differences in reproductive biology, parental investment and development among the different age-sex classes.

Livelihood strategy of coastal households during covid-19 pandemic: case study in Wermaktian District, Tanimbar Islands Regency

This research aims to analyze coastal households' livelihood strategy in coping with the covid-19 pandemic, especially for the households who live by coastal forest in Wermaktian District, Tanimbar Islands Regency. Research is conducted at two villages, namely Marantutul Village and Batuputih Village. These villages are selected because the households in that village undergo both farming and fishery activities. The sample is determined purposively, involving 60 households with 30 households taken from each village. The research shows that households who live by coastal forest have used several strategies for fulfilling household necessities during the covid-19 pandemic. Those strategies are classified into three categories, respectively on-farm (intensifying farming works), non-farm (working at lumber industry), and off-farm (as a trader). Working in the lumber industry has the biggest contribution to household income, which is 53 percents. The remaining percentage is contributed by copra commodity, crops, fishery, and household services.

The creation of ghost forests is driven by physical, ecological, and disturbance factors but remains a rare phenomenon

Marine transgression and the landward migration of coastlines in response to sea-level rise will determine the future of coastal ecosystems and species worldwide, yet no complete model of these processes exist. Ghost forests, areas where coastal forest has been killed by saltwater inundation, are an attention-grabbing early indicator of marine transgression. Research on marine transgression to date has largely been limited to place-based studies that, due to logistical constraints and foci of expertise, investigate subsets of the potential drivers of marine transgression. Here I take advantage of new open source datasets to provide the first systematic analysis of marine transgression across large scales, focusing on the creation of ghost forests across a region of ecological and scientific importance, the northeast U.S. My analysis provides the first synthesis of the physical, ecological, and disturbance factors that influence marine transgression. It also provides crucial regional context for more intensive studies that have a limited geographic scope. I found that ghost forests are a rare phenomenon in the landscape context: 95% of recent forest loss is concentrated in less than 3.86% of marshes, and between 2000 and 2018, only 0.88% of the entire forested area of the transgression zone experienced loss. As a result of this rarity, regional variation in marine transgression is largely driven by opportunities for rare events, which are more numerous when suitable conditions, such as shallow slopes, cover extensive areas. Quantifying recent trends in the rate of forest loss found little evidence of acceleration, with evidence instead suggesting that fewer ghost forests are being created. I also found that physical, ecological, and disturbance factors, including hurricane impacts, were all important for understanding recent trends in forest loss, suggesting that an interdisciplinary approach is warranted for future analyses and modeling of marine transgression. Such interdisciplinary research is urgently needed, as the current rate of marine transgression points to the likelihood of near-term losses of coastal wetlands, with dire implications for the species that depend on them.

Diversity and abundance of insects in the recreational forest of Bukit Keluang, Besut, Terengganu.

Bukit Keluang is one of the famous natural recreational sites in Besut, Terengganu due to their beautiful sandy beaches and beautiful landscapes. Bukit Keluang recreational forest consist coastal and lowland dipterocarp forest. The studies on the biodiversity are never been reported at this area and thus, we aimed to investigate the diversity and abundance of insects in the coastal and inland forest of Bukit Keluang recreational forest. We built two plots which are Plot A in the coastal area and Plot B in the inland forest at Bukit Keluang. For each plot, three types of insect traps were used; yellow pan traps, pitfall traps, and Malaise traps. The traps were left for seven days and all insect samples collected were brought to the laboratory for sorting, enumerating and identifying up to order level. A total of 455 individuals of insects consisted of 10 orders (i.e. Hymenoptera, Diptera, Lepidoptera, Coleoptera, Collembola, Homoptera, Orthoptera, Dermaptera, Blattodea and Isoptera) were successfully collected from the forest of Bukit Keluang. Among them, Hymenoptera order dominated the number of individuals collected at 67.25% followed by Diptera (11.21%) whilst Collembola and Dermaptera were the least abundance order collected at 0.22%, respectively. The coastal forest recorded a total of 271 individuals (nine orders) while inland forest recorded 184 individuals (eight orders). No significant difference (p>0.05) of insect abundance was recorded between both plots. However, the Shannon-Weiner Diversity Index (H’) showed that the diversity of insects in the inland forest was slightly higher (H’=1.52) than the coastal forest (H’=0.86). We conclude that the insects’ diversity in Bukit Keluang is relatively higher in inland forest but lower in coastal forest. As no other insect survey has been conducted in this study area in the past, this study delivers a basic evidence and dataset of diversity and abundance for insect which may beneficial for further conservation research at Bukit Keluang in the future.

Invasive Wild Pigs: A Significant Disturbance in Coastal Forests

Introduced in ~59 countries and native across Europe and Asia, wild pigs, Sus scrofa, are the most wide-spread swine species in the world. As ecosystem engineers, wild pigs are a significant source of disturbance in introduced ecosystems due to their numerous, complex impacts on ecosystem processes. Wild pigs are often found in the resource-rich habitat of coastal forests. Coastal forests are complex, dynamic systems with tremendous biodiversity. Exposed to recurrent disturbances, the biophysical characteristics of coastal forests contribute to their ability to return to their original state post-disturbance. However, compounding disturbances can weaken this ability and threaten the health and function of the ecosystem. In this review, through the model of the forests of the southeastern United States Coastal Plain, we (1) describe conditions found across the forested coastal landscape, (2) describe wild pig disturbance, and (3) discuss how wild pig impacts can add to significant anthropogenic and climate-related disturbances threatening coastal forests. Through this review, we find that the impacts of wild pig disturbance on coastal forests often have similar effects as anthropogenic and climate change-related disturbances that may enhance these significant threats to coastal forest function and resiliency.

Quantifying Drivers of Coastal Forest Carbon DeclineHighlights Opportunities for Targeted Human Interventions

As coastal land use intensifies and sea levels rise, the fate of coastal forests becomes increasingly uncertain. Synergistic anthropogenic and natural pressures affect the extent and function of coastal forests, threatening valuable ecosystem services such as carbon sequestration and storage. Quantifying the drivers of coastal forest degradation is requisite to effective and targeted adaptation and management. However, disentangling the drivers and their relative contributions at a landscape scale is difficult, due to spatial dependencies and nonstationarity in the socio-spatial processes causing degradation. We used nonspatial and spatial regression approaches to quantify the relative contributions of sea level rise, natural disturbances, and land use activities on coastal forest degradation, as measured by decadal aboveground carbon declines. We measured aboveground carbon declines using time-series analysis of satellite and light detection and ranging (LiDAR) imagery between 2001 and 2014 in a low-lying coastal region experiencing synergistic natural and anthropogenic pressures. We used nonspatial (ordinary least squares regression–OLS) and spatial (geographically weighted regression–GWR) models to quantify relationships between drivers and aboveground carbon declines. Using locally specific parameter estimates from GWR, we predicted potential future carbon declines under sea level rise inundation scenarios. From both the spatial and nonspatial regression models, we found that land use activities and natural disturbances had the highest measures of relative importance (together representing 94% of the model’s explanatory power), explaining more variation in carbon declines than sea level rise metrics such as salinity and distance to the estuarine shoreline. However, through the spatial regression approach, we found spatial heterogeneity in the relative contributions to carbon declines, with sea level rise metrics contributing more to carbon declines closer to the shore. Overlaying our aboveground carbon maps with sea level rise inundation models we found associated losses in total aboveground carbon, measured in teragrams of carbon (TgC), ranged from 2.9 ± 0.1 TgC (for a 0.3 m rise in sea level) to 8.6 ± 0.3 TgC (1.8 m rise). Our predictions indicated that on the remaining non-inundated landscape, potential carbon declines increased from 29% to 32% between a 0.3 and 1.8 m rise in sea level. By accounting for spatial nonstationarity in our drivers, we provide information on site-specific relationships at a regional scale, allowing for more targeted management planning and intervention. Accordingly, our regional-scale assessment can inform policy, planning, and adaptation solutions for more effective and targeted management of valuable coastal forests.