Terence M. Farrell scite author profile

Since 2006, there has been a marked increase in the number of reports of severe and often fatal fungal skin infections in wild snakes in the eastern USA. The emerging condition, referred to as snake fungal disease (SFD), was initially documented in rattlesnakes, where the infections were believed to pose a risk to the viability of affected populations. The disease is caused by Ophidiomyces ophiodiicola , a fungus recently split from a complex of fungi long referred to as the Chrysosporium anamorph of Nannizziopsis vriesii (CANV). Here we review the current state of knowledge about O. ophiodiicola and SFD. In addition, we provide original findings which demonstrate that O. ophiodiicola is widely distributed in eastern North America, has a broad host range, is the predominant cause of fungal skin infections in wild snakes and often causes mild infections in snakes emerging from hibernation. This new information, together with what is already available in the scientific literature, advances our knowledge of the cause, pathogenesis and ecology of SFD. However, additional research is necessary to elucidate the factors driving the emergence of this disease and develop strategies to mitigate its impacts. This article is part of the themed issue ‘Tackling emerging fungal threats to animal health, food security and ecosystem resilience’.

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Cross‐shelf transport causes recruitment to intertidal populations in central California

Farrell

Bracher

Roughgarden

1991

Limnology & Oceanography

245

228

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The control of recruitment to intertidal barnacle populations along the central California coast was examined from April to mid-October 1988. Four recruitment pulses occurred during periods of relaxation in alongshore winds and cessation of coastal upwelling. In each case recruitment ended when strong equatorward winds reappeared -and upwelling resumed. Data on SST, salinity, adjusted sea level, and satellite (AVHRR) images revealed alternating periods of onshore and offshore transport of the surface water layer. The onset of the largest recruitment pulse was associated with the advection of warm, clear, low-salinity water into the neat-shore region. This oceanic water mass also contained a different zooplankton assemblage than the water mass it replaced.

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Models and Mechanisms of Succession: An Example From a Rocky Intertidal Community

Farrell¹

1991

Ecological Monographs

233

205

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JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org. This content downloaded from 139.184.Abstract. An investigation of the processes that cause succession was performed in an intertidal community on the central Oregon coast. The community was dominated by barnacles and several species of macroalgae. The successional sequence was determined at three different sites by clearing sets of plots in a way that mimicked natural disturbance. Succession at each of these sites followed the same general sequence. A barnacle, Chthamalus da/li, first colonized the plots and was later replaced by a second barnacle, Balanus glandula. The macroalgae Pelvetiopsis limitata, Fucus distichus, and Endoc/adia muricata colonized the plots only after Balanus was established. While the order of species arrival and departure was consistent, the rate of succession varied greatly among sites. The sequence of community development that was observed at one site over a 36-mo period occurred in < 12 mo in a nearby area. Differences in the rate of succession appeared to result from variation in the timing of successful Balanus recruitment.The mechanisms of succession were investigated in a series of field experiments. An experiment with Balanus-removal, Chthamalus-removal, and control plots was used to assess the interactions between barnacles. A direct interaction, competition for space with Balanus, caused Chthamalus to decrease in abundance as succession proceeded. Chthamalus did not affect the establishment of Balanus. Successful Balanus recruitment depended on occasional periods of larval settlement followed by periods of favorable weather. At all three sites, algal colonization was dependent on the presence of barnacles. Balanus greatly facilitated algal colonization, while Chthamalus only weakly facilitated algal colonization. Facilitation of algal colonization by epoxy-filled barnacle tests indicated that facilitation resulted from barnacle tests altering the substrate, rather than the activities of the living animals. A factorial experiment involving manipulations of barnacle and consumer (limpet) abundances demonstrated that the facilitation of algae by barnacles is an indirect interaction that is mediated by limpets. Barnacles decreased limpet foraging activity and thereby increased algal abundance.Succession in this community is complicated by several processes that are not included in traditional views of succession. (1) Not all early successional species have the same effect on the establishment of later successional species. This results in spatial variation in the rate of succession.(2) The model of succession is different in each step in the successional sequence. The Chthamalus-Balanus interaction is an example of the tolerance model, while the ba...

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Succession in a rocky intertidal community: the importance of disturbance size and position within a disturbed patch

Farrell

1989

Journal of Experimental Marine Biology and Ecology

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Proteomic analysis of ontogenetic and diet-related changes in venom composition of juvenile and adult Dusky Pigmy rattlesnakes (Sistrurus miliarius barbouri)

Gibbs

Sanz

Chiucchi

et al. 2011

Journal of Proteomics

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