R. Eric Miller

SURVEY FOR HAEMOPROTEUS SPP., TRICHOMONAS GALLINAE, CHLAMYDOPHILA PSITTACI, AND SALMONELLA SPP. IN GALAPAGOS ISLANDS COLUMBIFORMES

Abstract Endemic free-ranging Galapagos doves (Zenaida galapagoensis) and introduced rock doves (Columba livia) were surveyed in several islands of the Galapagos archipelago to establish sample prevalence of hemoparasites, Trichomonas gallinae, Chlamydophila psittaci, and Salmonella species. A Haemoproteus sp., the only hemoparasite identified, was found in 89% of the Galapagos doves sampled but not in the rock doves. Trichomonas gallinae was detected by polymerase chain reaction in 44% of rock doves from San Cristobal but in none of the Galapagos doves. Chlamydophila psittaci was detected from cloacal swabs in 6% of the Galapagos doves but in none of the rock doves sampled. All positive cases of C. psittaci occurred on Española, where the crude sample prevalence was 24%. A polymerase chain reaction–based Salmonella test failed to show evidence of this organism from any birds sampled.

HEMATOLOGY, PLASMA CHEMISTRY, SEROLOGY, AND CHLAMYDOPHILA STATUS OF THE WAVED ALBATROSS (PHOEBASTRIA IRRORATA) ON THE GALAPAGOS ISLANDS

Abstract Venipuncture was performed on 50 adult, free-ranging waved albatrosses (Phoebastria irrorata) on Española, Galapagos Islands, Ecuador, to establish hematologic and plasma biochemistry reference ranges and to determine the prevalence of exposure to important domestic avian pathogens. Weights and plasma creatine phosphokinase activities differed significantly between males and females. Serum was tested for evidence of exposure to avian influenza, avian paramyxoviruses 1, 2, and 3, avian cholera, adenovirus groups 1 and 2, avian encephalomyelitis, Mareks disease, infectious bursal disease, and infectious bronchitis virus (Connecticut and Massachusetts strains). Of 44 birds, 29 (66%) seroreacted to adenovirus group 1, and four seroreacted to avian encephalomyelitis. Cloacal swabs were negative for Chlamydophila psittaci DNA.

Microfilariae in GaláPagos penguins (Spheniscus mendiculus) and flightless cormorants (Phalacrocorax harrisi): Genetics, morphology, and prevalence

Galápagos penguins (Spheniscus mendiculus) and flightless cormorants (Phalacrocorax harrisi) live in small, isolated populations on the westernmost islands of Isabela and Fernandina in the Galápagos Islands, Ecuador. Between August 2003 and February 2005, 4 field trips, 2 in the cool, dry season (August 2003 and August 2004) and 2 in the hot, rainy season (March 2004 and February 2005), were undertaken; 298 Galápagos penguins and 380 cormorants were sampled for prevalence and intensity of hemoparasites. Microfilariae were found in both the penguins and the cormorants. Blood smears were negative for the presence of other species of hemoparasites. Overall prevalence of microfilariae across seasons was 42.0% in cormorants and 13.8% in the penguins. Intensity of infection was generally low (mean = 3.2–31.7 in 25 fields across seasons and species) with the exception of a few individuals with markedly high intensities of parasites (>300 in 25 fields in 1 cormorant). Prevalence of microfilariae increased significantly over the 4 sampling periods for cormorants, but not for penguins. Prevalences were significantly higher in cormorants than in penguins for 3 of the 4 collecting trips. Male penguins had higher prevalences than females; however, there were no gender differences in cormorants. No relation was detected between body mass and either presence or intensity of parasitism. Morphological characteristics of the microfilariae are also described and specimens from each host species were similar in all characters measured. DNA sequence data from the mitochondrial cytochrome c oxidase subunit I gene were consistent with the morphological evidence and together demonstrate that the penguins and cormorants are likely to be infected with the same species of microfilariae.

A REVIEW OF SOME OF THE HEALTH ISSUES OF CAPTIVE BLACK RHINOCEROSES (DICEROS BICORNIS)

Abstract In captivity, black rhinoceroses (Diceros bicornis) are beset by many disease syndromes not described in black rhinoceroses in the wild. Hemolytic anemia, hepatopathy, and ulcerative dermatopathy that lead to increased morbidity and mortality characterize these syndromes. It is uncertain whether these are separate disease syndromes with different etiologies or the same disease with different manifestations. This article offers a brief review of some of the health issues of concern for the captive black rhinoceros population and proposes some possible avenues of research for consideration.

Causes of mortality of wild birds submitted to the Charles Darwin Research Station, Santa Cruz, Galapagos, Ecuador from 2002-2004.

Necropsy findings were reviewed from wild birds submitted to the Charles Darwin Research Station, Santa Cruz Island, Galápagos Archipelago between 2004 and 2006. One hundred and ninety cases from 27 different species were submitted, and 178 of these cases were evaluated grossly or histologically. Trauma and trauma-related deaths (n=141) dominated necropsy submissions. Infectious causes of avian mortality included myiasis due to Philornis sp. (n=6), avian pox (n=1), and schistosomosis (n=1).

RISK FACTORS ASSOCIATED WITH A SKEWED NATAL SEX RATIO IN CAPTIVE BLACK RHINOCEROSES (DICEROS BICORNIS) IN THE UNITED STATES

Abstract The skew toward males in the sex ratio of calves is considered to be a problem for the captive population of black rhinoceroses (Diceros bicornis) in North America. This study used a retrospective case-control design to determine whether there was a predisposition toward birth of male calves over female calves and to examine risk factors associated with the occurrence of any detected skewed natal sex ratio in captive black rhinoceroses in the United States. The study population included captive female black rhinoceroses housed in the United States that had given birth to at least one calf of known sex. This study confirmed a skewing of the natal sex ratio toward male calves in the captive black rhinoceros population. The skewed ratio was found in calves born to wild-born dams, for which an increased time in captivity, irrespective of age, was associated with an increased likelihood of a male calf. Dams between 12 and 19 yr of age had a decreased likelihood of a male calf. The data also suggested a possible trend for the southern subspecies of black rhinoceros (Diceros bicornis minor) to be more likely to produce male calves than the eastern subspecies (Diceros bicornis michaeli). No associations were found with the sex of offspring in captive-born dams; however, this lack of association could be a result of low power in the study.

CLINICAL PRESENTATION AND ANTIVIRAL THERAPY FOR POXVIRUS INFECTION IN PUDU (PUDU PUDA)

Abstract A severe poxvirus infection occurred in three pudu (Pudu puda), resulting in two fatalities. Cutaneous ulcers with mucopurulent exudate were present around the eyes and nose, at the lip margins, coronary bands, and teats. Mucosal ulcers were present in the oral cavity, esophagus, and forestomachs. In the two fatalities, a secondary disseminated fungal infection also occurred. Affected animals were leukopenic, hypocalcemic, and hyperphosphatemic and had elevated serum alkaline phosphatase, alanine aminotransferase, and aspartate aminotransferase levels. Electron microscopic examination of affected skin confirmed the presence of a poxvirus. Neutralizing antibody titers to this virus were present in the two pudu tested. One case was treated with cidofovir, 5 mg/kg i.v. q7d for four treatments. Complete recovery occurred in the treated animal. This is the second report of poxvirus infection in pudu and the first report describing clinical presentation, presence of secondary disseminated fungal infection, and successful treatment.

ORAL, NASAL, AND CUTANEOUS EOSINOPHILIC GRANULOMAS IN THE BLACK RHINOCEROS (DICEROS BICORNIS): A LESION DISTINCT FROM SUPERFICIAL NECROLYTIC DERMATITIS

Abstract Oral, nasal, and cutaneous lesions resembling eosinophilic granulomas (EGs) were observed in eight captive black rhinoceroses (Diceros bicornis). Oral lesions were observed in all affected animals and occurred most often behind the prehensile lip. The typical clinical history of affected animals included oral bleeding or epistaxis from multilobulated, fungating, proliferative masses with areas of ulceration. Histologically, lesions were characterized by prominent infiltrates of eosinophils and rare foci of collagen degeneration on a background of marked submucosal or dermal neovascularization. Mucosal or epidermal hyperplasia was also present sometimes in association with distinctive epithelial degenerative changes consistent with superficial necrolytic dermatopathy of black rhinoceroses. Lesions of EG and superficial necrolytic dermatopathy were interpreted as being concurrently manifested in these cases. EG lesions spontaneously resolved over periods of 30 days–7 mo and were recurrent in three animals. Lesions were responsive to treatment with corticosteroids or to local cryotherapy with liquid nitrogen. Two animals treated with systemic corticosteroids died of disseminated fungal infections, emphasizing that corticosteroids should be used cautiously in black rhinoceroses.

Collaboration and the Politics of Conservation

Todays world is a complicated place, and it is difficult to imagine a meaningful conservation effort that will not require positive interactions among people of different backgrounds. At the very least this will include scientists from different areas of expertise, field naturalists, and policy-makers, often from different countries, different social expectations, and speaking different languages. Often additional requirements are included in the mix. In this chapter, we will discuss the changing world of how science is done, including conservation science, why collaboration is necessary, and how to approach a collaborator to enhance the likelihood of success. We will focus particularly on efforts to impact management decisions in the Galapagos Islands, and what may make this a less daunting challenge than elsewhere, but what challenges are present despite the focus of multiple Galapagos agencies on conservation. We focus on the nature of our collaborations with Galapagos agencies, and the critical importance of building stable local capacity in a changing political environment.