Ecology of Rare and Abundant Raptors on an Oceanic Island| The Sharp-Shinned Hawk and Red-Tailed Hawk in Puerto Rico

Gallardo, Julio C.

08 September 2018

<p> Reliable estimates of species abundance, distribution, and population trajectories are critical in conservation and management. However, for many tropical species that information is missing. We conducted Sharp-shinned Hawk (SSHA) searches during the breeding seasons of 2013, 2014, and 2016 in eight montane forest reserves and their adjacent private lands of Puerto Rico. Further, we developed a maximum entropy model (MaxEnt) of the SSHA&rsquo;s potential distribution using the following environmental variables: aspect, canopy closure, elevation, rainfall, slope, and terrain roughness. Elevation accounted for 89.8% of model fit, predicting the greatest probability of occurrence (> 60%) at elevations above 900 m. The model estimated 0.6%Puerto Rico (56.1 km²) has the greatest probability of occurrence. We developed a periodic population matrix model to describe the influence of early life stages on population growth of the Red-tailed Hawk (RTHA) in eastern Puerto Rico. Our results suggest that the RTHA population has an average annual population increase of 5%, with rates differing between highlands (&lambda;_h = 1.05) and 27% lowlands (&lambda;_l = 1.27). Adult survival was the most important population growth parameter, with more effect in highlands (elasticity = 0.86) than in lowlands (elasticity = 0.53). Sensitivity of &lambda; to changes in nestling survival was greater than for other life-stages (sensitivity lowlands = 0.46, sensitivity highlands = 0.48). I developed an open population N-mixture model to estimate abundance, availability, and detection probability of RTHA in the Luquillo Mountains and western Cordillera Central. The abundance estimates were 0.05 RTHA/ha, with an availability of (&phis;) = ~1 RTHA/per survey point and a detection probability (r) = ~0.25. In Luquillo Mountains, abundance was positively influenced by slope and elevation. In the western Cordillera Central, abundance of RTHA was constant across elevation, slope, and canopy closure. Detection probability decreased with increasing slope and wind conditions and showed a gradual small negative decrease with slope with reduced winds conditions. My findings are a contribution to our knowledge of how population traits and ecological constraints imposed by insular environments are influencing distribution, abundance, and population dynamics of raptors to propose management or conservation schemes.</p><p>

Liberation Ecology of the Border Wall| Biodiversity in the Age of Biopolitics

Hunt, Robert

09 November 2018

<p> Conservationists have detailed the potential impacts of the Border Wall on wildlife. The issue with this assertion is that little direct measurements of such impacts have been actually made. To determine the current state of the Wall&rsquo;s impacts, if any, I have used phenomenology to ascertain the structure and apparent impacts of the Wall. My measurements of the elements of the Wall&rsquo;s security footprint seem to indicate a potential for impacting wildlife and their habitats, especially if it is to be expanded beyond its current deployment. What I did discover is the full human impacts of the Wall, and these may supersede wildlife impacts and render conservation efforts moot. Conservation of wildlife will need to address the human ecology of the Wall in order to build truly sustainable successes in preservation and restoration projects.</p><p>

Roost and Foraging Habitat for Indiana Bats (Myotis Sodalis) in the Southeastern Ontario Lake Plain of New York State

Fishman, Michael Samuel

11 October 2017

<p> Conservation of endangered Indiana bats (<i>Myotis sodalis</i>) requires knowledge of regional habitat use patterns. I radio-tracked Indiana bats to roosts and foraging areas to document summer habitat use. Sexes selected different roost trees: reproductive females selected maples, whereas males selected elms and other species, but did not use maples. Distribution models based on environmental correlates revealed that soil series was the strongest contributor to niche models. Females selected roosts in silt loams; males selected roosts in muck, silt loam and fine sandy loams. All bats foraged in habitats over fine sandy and gravelly loams. Male roosts and female foraging areas were found near local water body elevations, though males foraged at higher elevations. The niche models suggest that sexes roost and forage separately, but that ranges for these activities overlap. My findings identify habitats selected by Indiana bats thereby enabling more effective conservation for this endangered species.</p><p>

Impacts of Human Disturbance on Carnivores in Protected Areas of the American Southwest

Baker, Angela Darnell

13 September 2017

<p> Mammalian carnivores are a vital component of many ecosystems and can be particularly sensitive to human disturbance, even within protected areas (PAs). Our objective was to understand how human disturbance affects carnivore communities in southern Arizona, U.S.A., by studying habitat occupancy based on data collected using non-invasive methods in three PAs with different levels of human disturbance. We examined the impacts of human disturbance variables and disturbance level on carnivore occupancy, co-occurrence, temporal activity, and habitat associations. Carnivore occupancy varied based on human disturbance variables (i.e., roads, trails, etc.). Edges of PAs appeared to negatively impact occupancy of nearly all carnivore species. We also found that the presence of roads and trails, and not necessarily how much they are used, had a significant negative impact on the occupancy of most carnivore species. Furthermore, the overall level of disturbance within a PA influenced how sensitive carnivores were to human disturbance variables. Carnivores were more sensitive in PAs with higher levels of disturbance and were relatively unaffected by disturbance variables in a PA with low base levels of disturbance. In areas with low levels of disturbance, we found that many carnivore species have lower than expected levels of co-occurrence, which suggests spatial partitioning. As disturbance within an area increased, spatial partitioning became less prominent, and carnivores exhibited higher levels of temporal partitioning within these areas. We found that habitat associations varied among carnivore species, and associations were often different across different scales. We also found evidence of different habitat preferences in protected areas with higher levels of disturbance (e.g., avoidance of water sources). Information on the impacts of human disturbance is important when developing conservation plans, which is especially true for protected areas, given their important role in carnivore conservation, particularly as they are experiencing ever increasing rates of visitation.</p><p>

Ecology and conservation of the montane forest avian community in northeastern North America

DeLuca, William V

01 January 2012

Montane forests provide habitat for unique assemblages of flora and fauna that contribute significantly to a region's biodiversity. Previous work indicates that montane forest ecosystems are exceedingly vulnerable to a host of anthropogenic stressors including climate change, atmospheric deposition, and recreation, to name a few. Montane forests and other high elevation ecosystems are considered to be among the first and most severely impacted by climate change. It is therefore, imperative to evaluate anthropogenic impacts on montane ecosystems and maintain reliable monitoring methods that are capable of tracking potential shifts in the distribution of species dependent on these systems. I surveyed birds at various distances from hiking trails in the White Mountain National Forest from 2006–2009 to determine whether existing monitoring programs, all of which are based on trail-centered surveys, are accurately reflecting bird abundance, abundance stability and recruitment. Contrary to previous studies, I found that recreational trails generally did not alter estimates of abundance, recruitment, abundance stability, and detection probability for five species of birds considered to be indicators of montane forest ecosystem integrity in northeastern North America. Therefore, trail-based monitoring programs for montane birds appear to accurately reflect dynamics of bird communities undisturbed by hiking trails. These conclusions were supported by my finding that the daily nest survival of a montane spruce-fir indicator species, blackpoll warbler (Steophaga striata), did not vary as a function of distance from trail. I then used data from the White Mountain National Forest's montane bird monitoring program from 1994 through 2009 to assess potential shifts in the elevational distribution of montane birds in conjunction with documented habitat shifts in the region. My results provide evidence that low elevation forest birds have expanded their upper elevational boundary while high elevation birds have expanded their lower elevation boundary. These results highlight the complicated relationship between habitat, climate, and other anthropogenic stressors such as atmospheric deposition and that even in the face of climate change other stressors may be playing a significant role in shifts of species distributions. Understanding how climate affects the reproductive ecology of montane organisms is an important step toward unraveling the potential mechanisms by which climate change will alter the distribution of these species. I used blackpoll warbler breeding data from the Green Mountains, VT from 1994 to 2003 to determine if temporal variation in climate influenced blackpoll nesting initiation and found that years with warm Mays and typical precipitation lead to earlier nest initiation. I also examined the effect of spatial variation in climate on blackpoll reproductive ecology and demography. I found a gradient in habitat quality associated with the spatial variation in climate along an elevation gradient. Blackpolls were less abundant, younger, had lower pairing success, lower daily nest survival, higher nest predator occupancy, and lower fecundity at lower elevations. The climatic conditions at these lower elevations represent the climatic conditions predicted to encompass increasingly larger portions of montane areas. Collectively, these findings contribute to filling in a dearth of knowledge regarding management and an understanding of how species dependent on montane ecosystems are responding to climate change.

The ecology and conservation of the eastern spadefoot (Scaphiopus holbrookii) in the province lands of Cape Cod National Seashore, U.S.A.

Timm, Brad C

01 January 2013

The eastern spadefoot (Scaphiopus holbrookii) is an ephemeral wetland breeding amphibian that ranges from southern Florida north and westward to southeastern Missouri and northward along the Atlantic coastal plain to Massachusetts. This species is listed as either "threatened" or "endangered" in the four states (Connecticut, Massachusetts, New York, and Rhode Island) in the northeastern United States where it is known to exist. Population declines and extirpations throughout the region over the past century have been documented and are largely believed to be the result of habitat loss and/or alteration. Very limited empirical results exist on many life history attributes of S. holbrookii anywhere in its range, including movement patterns, upland habitat selection, and breeding habitat preferences. These are critical information gaps that must be filled in order to effectively conserve and manage for this rare species in the northeastern U.S. While S. holbrookii is extremely rare throughout most of the Northeast, it is locally common in specific areas of Cape Cod National Seashore, most notably in an extensive sand-dune ecosystem known as the Province Lands located at the northern terminus of the Cape Cod peninsula. During 2005 and 2006, we conducted larval trapping surveys at 102 wetlands in the Province Lands primarily to: 1) identify breeding wetlands and 2) to assess breeding habitat use and preferences of S. holbrookii with respect to a suite of selected abiotic and biotic covariates. We captured S. holbrookii larvae at 140/652 (~21.5%) trap locations and 41/102 (~40.2%) wetlands sampled. Model results identified a number of additional habitat covariates that exhibited a statistically significant relationship with larval S. holbrookii abundance including: the percent cover of 1) cranberry (positive relationship), and 2) woody shrub (positive relationship) at a 4m radius from the trap location; 3) percent woody shrub cover at the wetland-scale (negative relationship); 4) percent canopy cover at the wetland-scale (positive relationship); 5) wetland pH (positive relationship); 6) distance to the closest paved road (positive relationship); and the kernel density cover of 7) deciduous shrubland edge (positive relationship), 8) deciduous shrubland (negative relationship), 9) pine (positive relationship), and 10) open dune (positive relationship) in the uplands surrounding the study wetlands. During 2006 and 2008 we radio-tracked adult S. holbrookii in the Province Lands using surgically implanted radio-transmitters to: 1) describe movement patterns and estimate home range sizes, and 2) assess upland habitat preferences of S. holbrookii. We tracked 19/20 individuals (11 males and 8 females) and 12/20 individuals (7 males and 5 females) for at least the first 30 and 100 days post-surgery, respectively, during 2006. During 2008 we successfully tracked 15/25 individuals (10 males and 5 females) and 5/25 individuals (3 males and 2 females) for at least the first 30 and 100 days post-surgery, respectively. In addition to results obtained on a suite of movement attributes we identified a number of upland habitat preferences for S. holbrookii. Use locations were: 1) closer to the nearest deciduous shrub edge, 2) had a greater percent cover of ground-running pitch pine branches at a 1 m scale, 3) had a greater percent cover of deciduous shrubs at a 1 m scale, and 4) had a greater percent cover of reindeer lichen at a 5 m scale. Results from this research provide much needed empirical results on these critical life history attributes related to the movement and breeding ecology of S. holbrookii. These results will aid biologists and Park management staff at Cape Cod National Seashore in more effectively employing conservation and management strategies aimed at enhancing the long-term persistence probability of this regionally rare species in the Province Lands.

Attractive or aversive| The role of skunk oil and pelt coloration on predator behavior

Schiefelbein, Holly

13 September 2016

<p> Being sprayed by the oil produced by the anal glands of the striped skunk (<i>Mephitis mephitis</i>) is known to be strongly aversive to potential predators, which quickly learn to not attack in the future. However, many trap lures use oil from skunk anal glands as an ingredient intended to attract carnivores. This paradoxical nature of skunk oil being both attractive and aversive to potential predators has yet to be investigated, leaving a gap in the understanding of how predators respond to the visual aposematic warning signal of the skunk&rsquo;s pelt in combination with the possibly attractive chemical components of its oil. In this study, camera traps with baited models with either black-and-white or brown pelage, either with or without skunk oil, were deployed in natural areas around Southern California. Results suggest despite its previous use as an attractant for carnivores, the skunk&rsquo;s oil acts as a long distance deterrent while pelt coloration functions as a short distance warning signal.</p>

An analysis of the demography and habitat usage of Roatan's spiny-tailed iguana, Ctenosaura oedirhina

Campbell, Ashley B.

10 September 2016

<p> The Roat&aacute;n Spiny-tailed Iguana (<i>Ctenosaura oedirhina </i>) is endemic to the 146-km² island of Roat&aacute;n, Honduras. Harvesting for consumption, fragmentation of habitat, and predation by domestic animals threaten this lizard. It is currently listed as Endangered by the International Union for Conservation of Nature (IUCN), as threatened by the Honduran government, and is on Appendix II of the Convention on International Trade in Endangered Species (CITES). This species has been geographically fragmented and genetically isolated into small subpopulations that are declining in density. With data gathered from use/availability surveys, resource selection functions were used to identify habitats and environmental variables associated with their presence. Results indicate that protection from harvesting is the most important factor in determining their distribution. These high-density populations are currently restricted to &sim;0.6 km². Organisms living in small, isolated populations with very restricted ranges are at higher risk of extirpation due</p><p> to various direct and indirect forces. Mark-recapture-resight surveys and distance sampling have been used to monitor the populations since 2010 and 2012 respectively. The data show that the high-density populations are declining. The current population size is estimated to be 4130-4860 individuals in 2015. A population viability analysis (PVA) was conducted to identify the most pressing threats and specific life history traits that are affecting this decline. The analysis estimates that if current trends persist, the species will be extinct in the wild in less than ten years. Adult mortality is a main factor and female mortality specifically characterizes this decline. In order for this species to persist over the next fifty years, adult mortality needs to be reduced by more than 50%. A lack of enforcement of the current laws results in the persistence of the main threat, poaching for consumption, thus altering the species distribution and causing high adult mortality. This is complicated by social customs and a lack of post primary education. Management changes could mitigate this threat and slow the population decline. Recommendations include an education campaign on the island, increased enforcement of the current laws, and breeding of <i>C. oedirhina in situ</i> and <i> ex situ</i> for release into the wild.</p>

The use of assisted succession to restore the globally imperiled dwarf pine-oak forests of the New Jersey Pinelands : an investigation of the functional and structural recovery of an abandoned gravel pit /

Zolkewitz, Michael Alan. Bien, Walter F.

January 2010

Thesis (Ph.D.)--Drexel University, 2010. / Includes abstract and vita. Includes bibliographical references (leaves 206-237).

Avian Diversity, Pest-Reduction Services, and Habitat Quality in an Intensive Temperate Agricultural Landscape| How Effective Is Local Biodiversity Enhancement?

Heath, Sacha Katharine

20 November 2018

<p> Thirty-four percent of Earth&rsquo;s arable land has been converted to agricultural uses, and increased agricultural intensification has been correlated with contemporary decreases in avian abundance and functional diversity. Farm-scale biodiversity enhancement features such as native woody plant hedgerows have been planted in crop margins with the expectations of attracting beneficial predators and pollinators, and of improved pest control and pollination services in adjacent crops. Despite ongoing investment and perceived benefits of these types of enhancements for biodiversity, few evaluations have tested their effectiveness at increasing avian diversity. A growing body of research has quantified crop pest reduction by birds with indirect benefits for yield, yet few studies have evaluated whether farm-scale conservation activities improve effect sizes of these services. Further, whether or not crop margin habitats confer fitness benefits necessary for avian population viability (i.e., survival and reproduction) remains almost entirely unstudied. On each of these fronts, landscape effects can counteract or interact synergistically with the effects of local activities, and assessment of farmland habitat enhancement must be done with explicit reference to landscape context. I conducted field research in a system of extant woody hedgerows and semi-natural riparian habitat patches among farmlands of the Sacramento Valley of California&rsquo;s Central Valley, USA to investigate three questions. Does farm-scale biodiversity enhancement and retention of semi-natural landscape habitat 1) influence patterns in avian abundance and diversity, 2) increase the rate of pest reduction by birds in adjacent crops, and 3) provide quality habitat and confer fitness benefits for avian occupants? In Chapter 1, and with collaborators, I sampled birds and habitat characteristics in 111 crop margins and landscape buffers during two winter and breeding seasons. We found that margins with hedgerows, treelines, or remnant riparian habitat harbored 2&ndash;3 times as many bird species and 3&ndash;6 times greater abundance than bare or weedy margins. Margin habitat type interacted with distance from semi-natural woodlands; hedgerow or riparian margins further from woodlands harbored more bird species. In Chapter 2, I performed a sentinel prey exclosure experiment in walnuts to compare pest cocoon predation rates by birds in 10 orchards with and 10 orchards without woody vegetation patches in their margins, and I characterized semi-natural cover within landscape buffers. Avian predator richness and abundance was greater in habitat orchard margins than in bare margins, and birds were confirmed predators of 23&plusmn;29% pest cocoons per orchard (range 0 &ndash; 80%). Pest predation rates did not increase with the presence of woody margin habitat. Instead, predation rates increased with the increasing size of orchard trees, avian predator abundance, and percentage of semi-natural cover in the landscape. In Chapter 3, I used a suite of environmental, body condition, and population measures in long-distance migratory <i>Zonotrichia</i> sparrows to quantify habitat quality at hedgerows and natural reserves along a gradient of connectivity and landscape habitat amount. Abundance and within-winter apparent survival was highest in connected hedgerows and natural reserves with the most woodland landscape cover. Isolated hedgerows were of poor quality for first year Gambel&rsquo;s white-crowned sparrows <i>(Z. leucophrys gambelii)</i> and the differences in within-winter apparent survival between first year and adult birds decreased significantly with increasing woodland landscape cover. The combined results suggest that farm scale habitat enhancement can be beneficial for birds in terms of local abundance and diversity, and within-winter apparent survival if connected to and among a sufficient percentage of other similar habitats. Farm scale enhancements can also be beneficial to growers by increasing the number of avian predators of crop pests. Yet, growers appear to benefit most by having crops located in landscapes with greater percentages of semi-natural landscape cover, where avian predation rates of crop pests were highest.</p><p>