Global change drivers and the risk of infectious disease

Anthropogenic change is contributing to the rise in emerging infectious diseases, but it remains unclear which global change drivers most increase disease and under what contexts. We amassed a dataset from the literature that includes 1,832 observations of infectious disease responses to global change drivers across 1,202 host-parasite combinations. We found that biodiversity loss, climate change, and introduced species were associated with increases in disease-related endpoints or harm (i.e., enemy release for introduced species), whereas urbanization was associated with decreases in disease endpoints. Natural biodiversity gradients, deforestation, forest fragmentation, and most classes of chemical contaminants had non-significant effects on these endpoints. Overall, these results were consistent across human and non-human diseases. Context-dependent effects of the global change drivers on disease were common and are discussed. These findings will help better target disease management and surveillance efforts towards global change drivers that increase disease.One-Sentence SummaryHere we quantify which global change drivers increase infectious diseases the most to better target global disease management and surveillance efforts

Preparing for a Bsal invasion into North America has improved multi-sector readiness

Western palearctic salamander susceptibility to the skin disease caused by the amphibian chytrid fungus Batrachochytrium salamandrivorans (Bsal) was recognized in 2014, eliciting concerns for a potential novel wave of amphibian declines following the B. dendrobatidis (Bd) chytridiomycosis global pandemic. Although Bsal had not been detected in North America, initial experimental trials supported the heightened susceptibility of caudate amphibians to Bsal chytridiomycosis, recognizing the critical threat this pathogen poses to the North American salamander biodiversity hotspot. Here, we take stock of 10 years of research, collaboration, engagement, and outreach by the North American Bsal Task Force. We summarize main knowledge and conservation actions to both forestall and respond to Bsal invasion into North America. We address the questions: what have we learned; what are current challenges; and are we ready for a more effective reaction to Bsal’s eventual detection? We expect that the many contributions to preemptive planning accrued over the past decade will pay dividends in amphibian conservation effectiveness and can inform future responses to other novel wildlife diseases and extreme threats

Back from the Brink?: Rebounding and Remnant Amphibian Populations in a Pathogen Enzootic Environment

The Anthropocene epoch has been marred by a global biodiversity crisis and the advent of Earth’s sixth mass extinction. Amphibians, the most threatened vertebrate taxa, have become the poster children for this sixth mass extinction. The pathogenic fungus Batrachochytrium dendrobatidis has been blamed for many of declines and extinctions seen in amphibians. The now panglobal Bd causes the disease chytridiomycosis in a large number of amphibian species and has been linked to population crashes in Central and South America, Australia, Europe, and the United States. Now enzootic around the world, amphibian populations continue to confront Bd in a long-term battle between host and pathogen. The toll exacted by the panzootic spread of Bd was clear, but the persistence of this lethal pathogen in habitats with susceptible species is still poorly understood. Herein I examined the response of amphibians in the Neotropics to this new, enzootic stage of Bd presence. I reviewed the current state of amphibian populations in Costa Rica, one of the first countries to report mass amphibian declines, and discussed recent report of species rediscoveries and population recoveries. In the Andes of southern Peru I identified a competent disease reservoir, the gladiator frog Boana gladiator, that appears to be driving terrestrial and aquatic transmission of Bd and potentially mediating the amphibian community structure as a result. While B. gladiator may hamper other species from rebounding, in Costa Rica I assessed a reportedly recovering population of another stream-breeding hylid, Duellmanohyla rufioculis. I determined that the Rara Avis population of D. rufioculis appears to have recovered from near undetectability and remains stable, or even increasing, despite the continued presence of Bd in the population and community. I found that the genetic structure of this population shows telltale signs of a major demographic bottleneck and of recent expansion, corroborating the field findings that the population has recently expanded. The data collected during my dissertation on the long-term dynamics of disease transmission, amphibian population dynamics, and the genetic consequences of declines and recovery provide vital clues on how populations can persist with an ever-present pathogen

A new species of Pristimantis (Amphibia, Anura, Craugastoridae) from the foothills of the Andes in Manu National Park, southeastern Peru

We describe a new species of Pristimantis from the humid sub-montane forest of the Región Cusco in Peru. Pristimantis pluvialis sp. n. was collected in the Kosñipata and Entoro valleys at elevations from 740 to 1110 m a.s.l., near the borders of Manu National Park and within the Huachiperi Haramba Queros Conservation Concession. The new species can be distinguished from other members of the genus Pristimantis by its rostral tubercle, smooth dorsal skin, and by its advertisement call. Pristimantis lacrimosus and P. waoranii superficially most resemble the new species, but P. pluvialis sp. n. differs from both species by having a rostral tubercle (absent in P. waoranii and variable in P. lacrimosus) and larger size, from P. lacrimosus by its call emitted at a lower frequency, and from P. waoranii for its dorsal coloration with dark markings. Two other species have partially overlapping distributions and resemble the new species, P. mendax and P. olivaceus, but they produce advertisement calls with much higher dominant frequencies than the advertisement call of the new species. Furthermore, P. mendax differs from the new species by lacking a rostral tubercle and by having a sigmoid inner tarsal fold, whereas P. olivaceus differs by being smaller and by having dorsal skin shagreen with scattered tubercles. The new species has snout-vent length of 21.8–26.9 mm in males (n = 12) and 28.8 mm in a single female

Bryophryne phuyuhampatu sp. n., a new species of Cusco Andes frog from the cloud forest of the eastern slopes of the Peruvian Andes (Amphibia, Anura, Craugastoridae)

A new species of Bryophryne from the humid montane forest of the Department of Cusco, Peru, is described. Specimens were collected at 2795–2850 m a.s.l. in the Área de Conservación Privada Ukumari Llaqta, Quispillomayo valley, in the province of Paucartambo. The new species is readily distinguished from all other species of Bryophryne by having green coloration on dorsum, and blue flecks on flanks and ventral parts. Specimens are characterized by lacking a distinct tympanic annulus, tympanic membrane, and dentigerous processes of vomers, and by having dorsal skin shagreen, discontinuous dorsolateral folds, skin tuberculate on flanks, skin areolate on ventral surfaces of the body, and fingers and toes without lateral fringes or webbing. The new species has a snout–vent length of 14.2–16.9 mm in three males and 22.2–22.6 mm in two females, and is smaller than all other congeneric species except for B. abramalagae. Generic allocation is supported by low genetic distances of the 16S mitochondrial gene and morphological similarity with other species of Bryophryne, and geographic distribution. Bryophryne phuyuhampatu sp. n. is only known from the type locality, a cloud forest along the Quispillomayo River in the upper Nusiniscato watershed

Bridging the Research Gap between Live Collections in Zoos and Preserved Collections in Natural History Museums

Zoos and natural history museums are both collections-based institutions with important missions in biodiversity research and education. Animals in zoos are a repository and living record of the world's biodiversity, whereas natural history museums are a permanent historical record of snapshots of biodiversity in time. Surprisingly, despite significant overlap in institutional missions, formal partnerships between these institution types are infrequent. Life history information, pedigrees, and medical records maintained at zoos should be seen as complementary to historical records of morphology, genetics, and distribution kept at museums. Through examining both institution types, we synthesize the benefits and challenges of cross-institutional exchanges and propose actions to increase the dialog between zoos and museums. With a growing recognition of the importance of collections to the advancement of scientific research and discovery, a transformational impact could be made with long-term investments in connecting the institutions that are caretakers of living and preserved animals