Unprotected Habitats Research Articles

Quantifying marine larval dispersal to assess MPA network connectivity and inform future national and transboundary planning efforts

A marine protected area (MPA) network of multiple reserves can protect biodiversity across space, but to be effective, network configuration should support dispersal among MPAs as well as spillover to unprotected habitats. The ability of MPAs to function as an interacting network of populations connected by dispersal, however, is difficult to estimate at broad spatial scales, and therefore, connectivity is often not integrated in MPA design. Here, we simulate passive larval dispersal using a biophysical model to estimate potential transboundary network connectivity of MPAs in western Canada and United States. Drift time was varied to represent generic functional groups of nearshore species with planktonic larvae and sedentary adult stages. We found that MPAs potentially act as an interacting network and meet connectivity design criteria for nearshore invertebrate species, many MPAs (65%–90%) possibly exchange individuals, and a third of larvae from MPAs (25%–32%) source areas of the unprotected coast. This analysis provides a first approximation of multispecies connectivity to inform ongoing transboundary MPA design, and it can be used as a foundation for future model development.

Diversity of Birds in Highland Reservoirs and Adjoining Areas of Tigray, Northern Ethiopia: Implication for Conservation

Avian diversity is among the key components of the earth’s biodiversity that serve as unique barometers for environmental change. Bird diversity in unprotected habitats such as reservoirs in the Tigray region is less known. A study was conducted to assess the avian diversity in highland reservoirs of the Tigray region, particularly at Maygundi and Maysye reservoirs and their adjoining habitats from August 2022 to March 2023, covering both wet and dry seasons. A line transect and point count methods aided by binoculars were used to estimate avian species diversity and distribution. Biodiversity indices and Two-way ANOVA were used to analyze the data. A total of 1,813 individual birds belonging to 151 species, 17 orders and 51 families were recorded during the study period. Egyptian goose was the most abundant species (19.58 %), followed by Little Grebe (10. 86 %), Eurasian Coot (7.00 %), Ruff and Yellow Mantle Widowbird (3.31 % for each). A significant variation in the number of bird species between wet and dry seasons (F = 1225, df = 1, P = 0.02) and between reservoirs (F = 484, df = 1, P = 0.03) was observed. However, there was no significant difference in abundance of birds between wet and dry seasons in both reservoirs (P > 0.05). Maysye reservoir had high bird species diversity (H′ = 3.66), while Maygundi reservoir had the lowest (H′ = 3.24). The study shows that sedimentation and habitat destruction due to anthropogenic activities, including the expansion of settlements; agriculture and livestock grazing were the main threats to bird diversity. The highland reservoirs and their adjoining habitats support high avian species diversity including endemic and endangered species revealing the importance of the sites for bird conservation. Therefore, urgent conservation measures are recommended for long-term bird conservation.

Population structure and dynamics of Seriphidium herba-alba (Asso) Soják in different habitats in Jardas Jerrari, Al-Jabal Al- Akhdar, Libya

Seriphidium herba-alba (Asso) Sojàk is a dwarf shrub fast growing in arid and warm climates and muddy areas at southern Al-Jabal Al- Akhdar, Libya. The present work aims to study the size structure of Seriphidium herba-alba populations in relation to their physiographic and soil conditions. Cover percentage of the species was assessed in ten selected quadrates (20 x 20 m) representing three habitats. The number of individuals of species was counted while the height (H) and mean crown diameter (D) were measured. The size index of each individual was calculated and then used to classify population into 7 size classes: 1 cm size 7 cm. Generally, the height to diameter ratio was less than unity for Seriphidium herba-alba, this means that the diameter of these species tend to expand horizontally rather than vertically , The total size structure of Seriphidium herba-alba in the study area is characterized by the preponderance of the young individuals comparing with the old ones. Five forms of size distributions along the different elevations were recognized: more or less inverse J-shaped distribution, positive skewed distribution, and bell shaped distribution. Soil of the upstream has the highest values of SO4--, Cl-, Ca++, Na+, and K⁺, while, while that of mid-stream has the lowest values. The populations of Jardas Jerrari trees, one of the most important tree components of the desert wadis in the central region of Al-Jabal Al- Akhdar area subjected to tremendous pressure from human impacts. Apart from human caused changes in the unprotected habitats, other biotic and abiotic factors may also play a role in the decline of the plant population.

The Influence of Invasive Alien Plants on Umbrella Butterflies of the GenusPhengarisand Diversity of Heteroptera True Bugs

AbstractThe Natura 2000 initiative and National Parks are the most important forms of nature protection in European countries. However, conservation efforts are often hampered by biological invasions, which are some of the most serious environmental problems. The aim of this study was to assess, in protected areas, the impacts of invasive plants – alienSolidagospp. onPhengarisbutterflies andHeracleum mantegazzianumon Heteroptera true bugs.Ph. teleiusandPh. nausithouswere surveyed in the Jaworzno Meadows Natura 2000 site using the Capture-Mark-Recapture method. Heteroptera were surveyed using transect captures in Magurski National Park. The sizes of local populations of the butterflies were lower in patches with higher goldenrod cover. A high cover of the host plant may mitigate the negative impact of goldenrod during the early stage of invasion. In the case of poor habitat quality, nearby unprotected habitat patches act as ecological traps for butterflies due to the application of mowing during the butterfly flight period. The invasive giant hogweed had the most significant impact on reducing the number of Heteroptera individuals. Its influence was also observed at the assemblage level. The negative impact of hogweed has been detected despite the application of the first eradication treatments of this plant. Success in eradicating hogweed may be limited due to the spread of the plants from locations where removal is not applied.

Global habitat suitability modeling reveals insufficient habitat protection for mangrove crabs

Mangrove crabs are important components of mangrove forests however their large scale habitat suitability and conservation received little attention. The Metopograpsus thukuhar/cannicci species complex is a mangrove dwelling species occurs in the Indo-Pacific mangrove forests. Since identifying the complex suitable habitat is critical for its conservation, we modeled global habitat suitability of the complex within marine biogeographic realms and estimated representation of the complex suitable habitats within marine protected areas. We found that the complex’ largest and smallest suitable ranges are located in Central Indo-Pacific and Temperate Southern Africa realms, respectively. Only 12.5% of the complex suitable habitat is protected. The highest proportion of the complex’ protected suitable habitat (22.9%) is located in Western Indo-Pacific realm while the lowest proportion of the complex’ protected suitable habitat (1.38%) is located in Central Indo-Pacific realm. Suitable unprotected habitats of the complex identified in this study have high priority for conservation and should be included in marine protected areas to ensure species conservation. Our results show that species distribution models are practical tools to study marine species distribution across large spatial scales and help marine conservation planning.

Effect of human disturbance on the group size and population structure of geladas (Theropithecus gelada) in and surrounding area of Borena Sayint National Park, Ethiopia

Little is known about the effect of anthropogenic habitat disturbances on the group size and population structure of geladas (Theropithecus gelada), even though such data are crucial to implementing successful conservation actions and management plans. In this study, we compared the group size and composition of gelada populations inhabiting protected (Borena Sayint National Park) and unprotected habitats that experience different levels of human disturbances in Wollo, Ethiopia. We collected gelada population data using the total count method to determine the population number and to examine the influence of anthropogenic disturbances on the group sizes and social systems (band, all-male unit (AMU), or one-male unit (OMU)) of geladas. Overall, we counted a total of 2786 individuals of geladas belonging to 59 groups in both protected and unprotected habitats. The mean band size of geladas in the protected habitat was 81.6 individuals, while it was 40.1 in the unprotected habitat. In the protected habitat, the mean number of adult males per group (including both bands and OMUs) was 5.7, while it was 3.1 in the unprotected habitat. In the protected site, the mean number of immatures per group was 21.5, whereas it was 10.5 in the unprotected habitat. Likewise, the mean number of adult females per group in the protected habitat was nearly twice that of the unprotected site. However, the proportion numbers of age/sex compositions were not significantly different between the two habitats. In the protected habitat, the overall average adult male to adult female sex ratio was 1:5.1, while it was 1:4.8 in the unprotected area. The band size of geladas in the protected habitat was significantly and positively correlated with the altitude. Our study shows that geladas can withstand anthropogenically disturbed habitats by adjusting their band sizes to the optimal level. Such flexibility in group size is an adaptation strategy of geladas for maximizing foraging efficiency in response to broad grassland habitat losses and degradations. Although geladas are flexible in their population ecology, it is crucial to implement appropriate conservation measures to ensure their long-term persistence in the human-modified landscapes of the Ethiopian Highlands.

Common hippopotamus in the upper Dhidhessa River and its conflicts with Arjo‐Dhidhessa Sugar Factory, Ethiopia

AbstractDue to the loss of wetlands, land‐use change, and confrontations with humans, the common hippopotamus (Hippopotamus amphibius) is one of the largest land mammals currently threatened and classified as vulnerable by the International Union for Conservation of Nature (IUCN). The common hippo is found in protected and unprotected habitats, marshes, and inland major rivers of Ethiopia. However, little is known about the population status of hippos in the country. Hence, this study aimed to reveal the current population size of hippos and its conflicts with sugarcane plantation in Arjo‐Dhidhessa Sugar Factory. Data on population size, diet composition, and potential hippo conflicts was also collected from August 2020 to February 2021. The complete on‐foot count method was used to estimate the hippo population during the wet and dry seasons. The backtracking approach was used to determine the hippo's diet, which involved identifying and quantifying foraged species using quadrats. The total sugarcane stalk damage was counted in the sampled fields to determine sugarcane damage. Direct observation and interviews with sugarcane guards were used to identify mitigation methods employed to prevent hippo attacks. During the wet and dry seasons, a total of 96 and 182 hippos were documented in the upper Dhidhessa River, respectively. Hippos ate 23 plant species from 11 different families. The Poaceae family made up 51.32% of the hippo's diet. During the wet and dry seasons, a total of 662 (36.5%) and 1156 (63.5%) sugarcane stalks/ha were damaged, respectively. The best mitigation techniques against hippo assaults in the area were guarding, fencing, trenching, and burning fire. A sound conservation action plan for hippos along the Dhidhessa River and associated banks must be developed. Furthermore, while hippos are encircled by the Arjo‐Dhidhessa sugarcane irrigation scheme, modern mitigation measures and corridors for hippos should be implemented.

Projecting the remaining habitat for the western spadefoot (Spea hammondii) in heavily urbanized southern California

Extensive urbanization in coastal southern California has reduced natural habitat in this biodiversity hotspot. To better conserve ecological communities, state and federal agencies, along with local jurisdictions and private stakeholders, developed regional conservation plans for southern California. Although many protected areas exist within this region, the patchwork nature of these protected areas might not provide good coverage for species that require multiple habitat components, such as amphibians with complex life histories. Because of declines in the past century, the status of the western spadefoot ( Spea hammondii ) in southern California is of concern to state and federal wildlife agencies. Species distribution models (SDMs) can aid in determining the conservation status of imperiled species by projecting where suitable habitat remains and how much is protected from further development. We built SDMs that integrated site-occupancy data from systematic pitfall trapping surveys and presence-only data from biodiversity databases and citizen science platforms to project the current distribution of western spadefoots in southern California. Western spadefoot occurrence was positively related to the cover of grassland or shrub/scrub and the % sand in the soil within a 1000 m buffer, and was negatively related to slope, elevation, and distance to ephemeral streams or vernal pools. Most of the remaining unprotected habitat for western spadefoots is in the southern half of its historical range in western San Diego and Riverside counties. A few large tracts of spadefoot habitat exist on U.S. Department of Defense lands and smaller tracts remain on ecological reserves owned by state and local government agencies. Only small patches of habitat remain in the northern half of this clade’s historical range in Ventura, Orange, Los Angeles, and San Bernardino counties. Existing regional conservation plans provide ostensible spatial coverage of the majority of extant habitat for western spadefoots in southern California, but most of the habitat within the jurisdiction of these plans lacks formal protection, exposing this species to further declines as urbanization continues in the 21st century.

Chimpanzees (Pan troglodytes) adapt their nesting behavior after large-scale forest clearance and community decline.

Chimpanzees (Pan troglodytes) build nests at night for sleeping and occasionally during daytime for resting. Over the course of seven years, forest fragments in Bulindi, Uganda, were reduced in size by about 80% when landowners converted forest to agricultural land. However, unlike other studies on nesting behavior in response to habitat disturbance, chimpanzees at Bulindi had no opportunity to retreat into nearby undisturbed forest. To understand behavioral adaptations to forest clearance, we compared Bulindi chimpanzees' nesting characteristics before and after this period of major deforestation. After deforestation, chimpanzees built nests at lower heights in shorter trees, and reused a larger proportion of their nests. Additionally, average nest group size increased after deforestation, even though community size declined by approximately 20% over the same period. The substantial decrease in available forest habitat may have caused the chimpanzees to aggregate for nesting. However, more cohesive nesting may also have been influenced by dietary shifts (increased reliance on agricultural crops) and a need for enhanced safety with increased human encroachment. Conversely, the chimpanzees selected similar tree species for nesting after deforestation, apparently reflecting a strong preference for particular species, nested less often in exotic species, and built integrated nests (constructed using multiple trees) at a similar frequency as before fragment clearance. Chimpanzees living in unprotected habitat in Uganda, as at Bulindi, face mounting anthropogenic pressures that threaten their survival. Nevertheless, our study shows that chimpanzees can adjust their nesting behavior flexibly in response to rapid, extensive habitat change. While behavioral flexibility may enable them to cope with deforestation, at least to a certain point, the long-term survival of chimpanzees in fast-changing human-modified landscapes requires intensive conservation efforts.

Phylogeographical analysis shows the need to protect the wild yaks' last refuge in Nepal.

The wild yak Bos mutus was believed to be regionally extinct in Nepal for decades until our team documented two individuals from Upper Humla, north‐western Nepal, in 2014. The International Union for Conservation of Nature (IUCN) seeks further evidence for the conclusive confirmation of that sighting. We conducted line transects and opportunistic sign surveys in the potential wild yak habitats of Humla, Dolpa, and Mustang districts between 2015 and 2017 and collected genetic samples (present and historic) of wild and domestic yaks Bos grunniens. We also sighted another wild yak in Upper Humla in 2015. Phylogenetic and haplotype network analyses based on mitochondrial D‐loop sequences (~450 bp) revealed that wild yaks in Humla share the haplotype with wild yaks from the north‐western region of the Qinghai‐Tibetan Plateau in China. While hybridization with domestic yaks is a major long‐term threat, illegal hunting for meat and trophy put the very small populations of wild yaks in Nepal at risk. Our study indicates that the unprotected habitat of Upper Humla is the last refuge for wild yaks in Nepal. We recommend wild yak conservation efforts in the country to focus on Upper Humla by (i) assigning a formal status of protected area to the region, (ii) raising awareness in the local communities for wild yak conservation, and (iii) providing support for adaptation of herding practice and pastureland use to ensure the viability of the population.

Butterflies are weakly protected in a mega-populated country, Bangladesh

Protected areas have been established around the world to preserve samples of biodiversity from pressing threats. Yet the adequacy of protected area systems in many tropical nations is poorly understood, and assessments are usually focused on vertebrates. Here, we model the occurrence of 246 butterfly species, and determine the extent to which they occur in protected areas in Bangladesh, a country that forms part of the Indo-Burma biodiversity hotspot. We develop ecological niche models, and measure overlap with protected areas using three methods to map species distributions (habitat suitability, area of occupancy, and extent of occurrence). Suitability maps identify the north-east and south-east regions as the main centres of butterfly diversity, yet there is marked variation among families, and between non-threatened and threatened species. Using the suitability map approach, a mean of 1.27% of the geographic range of species is covered by protected areas. Only two species (Euploea crameri and Danaus melanippus) have >15% coverage, 25% of species have no coverage and 70% of species have <1% coverage. Overall, protected area coverage is slightly higher for threatened species. Tracts of suitable, but unprotected habitat still exist in the north-east and south-east regions of Bangladesh, and designation of new protected areas in these regions will strengthen butterfly conservation in the country. Enhanced management of existing protected areas, and a strategy for conserving butterflies and other insects outside protected areas will also help secure the long-term future for biodiversity in Bangladesh.

The role of temporary ponds as foraging sites for glossy ibis (Plegadis falcinellus) during the non-breeding season in Numidia, Northeast Algeria

Aquatic macroinvertebrates are a major link in food webs in temporary ponds and useful indicators of wetlands’ecological integrity. We investigated the available trophic resources and the physicochemical quality of 14 wetlands frequented by glossy ibis (Plegadis falcinellus), a resident species with an increasing population in Numidia, northeast Algeria. Sampling of temporary ponds was carried out in winter and early spring, prior to the Glossy Ibis’ breeding period. Analyses indicated that the studied waterbodies contained a rich and diversified aquatic community, dominated mainly by insects and molluscs and characterized by a spatio-temporal change in composition and abundance, reflecting a spatial heterogeneity and a temporal niche partitioning of various members of the aquatic community. Furthermore, the density of Glossy Ibis in foraging areas changed seasonally and declined significantly with the distance to the nearest roost. In the context of climate change and human encroachment, the close dependence of Glossy Ibis and other waders on a matrix of secure roosts and temporary ponds during the nonbreeding season puts them in jeopardy unless these imperilled but generally unprotected habitats are actively managed.

Habitat suitability of Proboscis monkey (Nasalis larvatus) in Berau Delta, East Kalimantan, Indonesia

The proboscis monkey (Nasalis larvatus) is an endemic species to Borneos’ island and is largely confined to mangrove, riverine, and swamp forest. Most of their habitat is outside the conservation due to degraded and habitat converted. Habitat loss is a significant threat to a decreased in the monkey's population. Berau Delta is an unprotected habitat of proboscis monkey, lacking in attention and experiencing a lot of disturbances. This study was conducted on April – August 2019; with aims of the study is to determine Species Distribution Modeling (SDM) for identifying proboscis monkey habitat suitability in Delta Berau, East Kalimantan. The MaxEnt algorithm was used to produce a habitat suitability map based on this species’ occurrence records and environmental predictors. We built the models using 208 points of proboscis monkey presence and 12 environment variables within the study area. Model performance was assessed by examining the area under the curve. The variables most influencing the habitat suitability model were the riverine habitat (60.9%), distance from the pond (16.0%), and distance from the coastline (5.2%). The proboscis monkey suitable habitat is only 9.32% (8,726.58 ha) from 93,631.41 ha total area. The appropriate habitat areas are Sapinang Island, Bungkung Island, Sambuayan Island, Saodang Kecil Island, Besing Island, Lati River, Bebanir Lama, Batu-Batu, and Semanting Bay. We provide some suggestions for the proboscis monkey conservation, which are local protection of uninhabited islands, participatory ecotourism management, and company involvement in protection and management efforts.

Soundscapes indicate kelp forest condition

Soundscapes are promising indicators of marine habitat condition, yet this approach remains untested in many ecosystems, and soundscape-ecological relationships remain unclear. In this study, we analyzed soundscapes in kelp forest habitats off the coast of California, USA, in Channel Islands National Park. We investigated if (1) soundscape features correlated with ecological variables and (2) these features differed inside and outside of marine protected areas (MPAs). We recorded 1 min every 15 min at 5 sites from 12 May to 23 June 2018. Three sites were in MPAs with high kelp cover and low urchin density, while 2 were in adjacent, unprotected habitats with low kelp cover and high urchin density. To analyze the data, we calculated soundscape features using detection algorithms and acoustic indices, which we then correlated with annual ecological data from 2016 to 2018. We found that drivers of regime shifts in kelp forests, i.e. sea urchin density, kelp cover, and fish diversity, were significantly related to soundscape features. Sea urchin density was positively correlated and kelp cover negatively correlated with the rate of shrimp snaps. Fish species richness and abundance were positively correlated with the intensity and diel dynamics in the low-frequency bands that contained most fish vocalizations. This study demonstrates that marine soundscapes indicate the condition of kelp forests, which are vulnerable to destruction from urchin overgrazing. If marine soundscapes can reliably indicate the status of ecological drivers, then this approach could be a valuable complement to diver surveys in fully assessing marine ecosystem health.

The relative effects of prey availability, anthropogenic pressure and environmental variables on lion (Panthera leo) site use in Tanzania's Ruaha landscape during the dry season

AbstractAfrican lion (Panthera leo) populations have been reduced by almost half in the past two decades, with national parks and game reserves maintaining vital source populations, particularly in East Africa. However, much of the habitats necessary to support lion populations occur in unprotected lands surrounding protected areas. There is an ongoing need for understanding the ecological determinants of lion occurrence in these unprotected habitats, where lions are most vulnerable to extinction. This study evaluated variations in lion site use along a gradient of anthropogenic pressure encompassing the Ruaha National Park, Pawaga‐Idodi Wildlife Management Area (WMA) and unprotected village lands via camera‐trapping. We collected lion occurrence data in the dry seasons of 2014 and 2015, and modelled lion site use as a function of environmental and anthropogenic variables under a Bayesian framework. We recorded 143 lion detections within the national park, 14 in the WMA and no detections in village lands. This result does not imply that lions never use the village lands, but rather that we did not detect them in our surveys during the dry season. Our findings suggest that lion site use was primarily associated with high seasonal wild prey biomass in protected areas. Thus, we infer that human‐induced prey depletion and lion mortality are compromising lion site use of village lands. Seasonal prey movements, and a corresponding concentration inside the park during sampling, could also play an important role in lion site use. These findings reinforce the need to secure large‐bodied prey base to conserve lions, and the importance of protected areas as key refugia for the species.

The conservation value of forest fragments in the increasingly agrarian landscape of Sumatra

SummaryDestruction of tropical rainforests reduces many unprotected habitats to small fragments of remnant forests within agricultural matrices. To date, these remnant forest fragments have been largely disregarded as wildlife habitat, and little is known about mammalian use of these areas in Sumatra. Here, we conducted camera trap surveys (2285 trap-nights) within Bukit Barisan Selatan National Park and five surrounding remnant forest fragments during 2010–2013 and used species composition metrics to compare use. We found 28 mammal species in the protected forest and 21 in the fragments. The fragments harboured a subset of species found in the protected forest and several species not observed in the protected forest. Critically endangered species such as Sunda pangolin (Manis javanica) and Sumatran tiger (Panthera tigris sumatrae) were found in the forest fragments, along with species of conservation concern such as marbled cat (Pardofelis marmorata) and Asiatic golden cat (Pardofelis temminckii). The biodiversity found within the fragments suggests that these small patches of remnant forest may have conservation value to certain mammal species and indicates the importance of further research into the role these habitats may play in landscape-level, multispecies conservation planning.

Hurricane Sandy and engineered response created habitat for a threatened shorebird

AbstractThe intensity of Atlantic Ocean hurricanes is predicted to increase, and although disturbance is recognized as a fundamental driver of ecological processes, the benefits of hurricanes to ecological systems are seldom acknowledged. In October 2012, Hurricane Sandy overwashed Fire Island and Westhampton Island, New York. The storm flattened dunes, buried vegetation, and breached the barrier islands in several places. To reduce future overwashing, engineers attempted to stabilize the islands. We studied nest‐site selection, suitable habitat, and abundance of a threatened shorebird, the piping plover (Charadrius melodus), before and after Hurricane Sandy. Prior to the hurricane, piping plovers selected nest sites (n = 62) farther from the ocean ( least‐cost distance = 82.8 m) and bay ( Euclidean distance = 697.7 m; least‐cost distance = 24,160.6 m) than would be expected if they were selecting nest sites at random. Following the hurricane, piping plovers selected nest sites (n = 45) predominantly in or near storm overwash habitat, which was close to, and had unobstructed walking access to, the ocean ( least‐cost distance = 123.4 m) and newly created bayside foraging habitats ( Euclidean distance = 468.0 m; least‐cost distance = 728.9 m). Areas overwashed by the hurricane contained the most suitable piping plover habitat across all new habitat types. Piping plover abundance increased 93% by 2018 from pre‐Hurricane Sandy abundances, with most pairs nesting in new habitats. However, only 58% of suitable piping plover habitat was protected from recreational use and few piping plovers used unprotected habitats for nesting. Our results suggest that the ecological benefits of increased storminess may be maximized by coupling coastal stabilization with targeted conservation of storm‐created habitats.

Recent records of dhole (Cuon alpinus, Pallas 1811) in Uttarakhand, Western Himalaya, India

Abstract Camera trap photographs of solitary individuals of Asiatic wild dog or dholes (Cuon alpinus, Pallas 1811) have been recorded from Kheda Tal area in Uttarkashi district of Uttarakhand. This is the first photographic confirmation of the presence of this species in the Himalayan habitats of Uttarakhand. The presence of dholes here seems to be confined to a relatively small area of unprotected habitats affected by various anthropogenic uses. The population of endangered dhole is rapidly declining especially in Himalayan region. Thus, it is imperative that local stakeholders are aware of their presence, and it is highly recommended that investigations of the ecological parameters of this population are continued.

Effective Dispersal of Caribbean Reef Fish is Smaller than Current Spacing Among Marine Protected Areas

The oceans are deteriorating at a fast pace. Conservation measures, such as Marine Protected Areas, are being implemented to relieve areas from local stressors and allow populations to restore to natural levels. Successful networks of MPAs operate if the space among MPAs is smaller than the dispersal capacity of the species under protection. We studied connectivity patterns across populations in a series of MPAs in the common yellowhead Jawfish, Opistognathus aurifrons. Using the power of genome-wide variation, we estimated that the maximum effective dispersal is 8.3 km. We found that MPAs exchange migrants likely via intermediate unprotected habitats through stepping stone dispersal. At scales >50 km such connectivity is decreased, particularly across the Mona Passage. The MPA network studied would be unable to maintain connectivity of these small benthic fishes if habitat in between them is extirpated. Our study highlights the power of SNPs to derive effective dispersal distance and the ability of SNPs to make inferences from single individuals. Given that overall reef fish diversity is driven by species with life histories similar to that of the yellowhead jawfish, managers face a challenge to develop strategies that allow connectivity and avoid isolation of populations and their possible extinction.

Seasonal dynamics of avian guilds inside and outside core protected areas in an Andean Biosphere Reserve of southern Chile

ABSTRACTCapsule: Many protected forests at high elevations show higher endemic biodiversity than unprotected habitats at low elevations. In seasonal ecosystems, however, harsh environmental conditions during winter may force individuals to move from protected forests to unprotected degraded forests in lowlands.Aims: To examine how forest types and seasons affect avian diversity and habitat-use guilds in protected and unprotected forests.Methods: Habitat and seasonal avian surveys were conducted to test forest type and seasonal differences on avian species richness, relative abundances and relative abundance of habitat-use guilds.Results: Twenty-three avian species (∼40% endemics) were recorded. Highland old growth forests showed the highest richness (4.1–4.9 species/point count). The lowest richness was recorded in mid-elevation secondary forests (3.1 species/point count). The highest relative abundances for habitat-specialist understorey users and large tree users were recorded in highland old growth forests. However, the abundance of large tree users was higher in secondary forests at low elevations during colder seasons.Conclusions: Some species and guilds may move to lower elevations outside protected areas during winter. Increasing degradation of unprotected areas will likely affect the suitability of ‘winter habitat’ for specialist guilds, and thus the ecological processes and source/sink dynamics occurring across boundaries of protected and unprotected areas.