Your search keyword '"James C. Russell"' showing total 323 results

1. Simulating capture efficiency of pitfall traps based on sampling strategy and the movement of ground‐dwelling arthropods

Author

Danish A. Ahmed, Ayah Beidas, Sergei V. Petrovskii, Joseph D. Bailey, Michael B. Bonsall, Amelia S. C. Hood, John A. Byers, Emma J. Hudgins, James C. Russell, Jana Růžičková, Thomas W. Bodey, David Renault, Elsa Bonnaud, Phillip J. Haubrock, Ismael Soto, and Peter Haase

Subjects

arthropod movement, capture efficiency, diffusion, inter‐trap spacing, pitfall trapping, random walk, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Pitfall traps are frequently used to capture ground‐dwelling arthropods, particularly beetles, ants and spiders. The capture efficiency of a pitfall trapping system strongly depends on the number and opening size of traps, how traps are distributed over the sampling area (spatial arrangement) and the movement characteristics of arthropods. We use numerical simulations for a single species to analyse the trap count patterns that emerge from these variables. Arthropod movement of individuals is modelled as correlated random walks, with multiple traps placed over an area, and catches are simulated as individual interaction with traps. We consider four different types of spatial arrangements of traps across a homogeneous landscape: grid (i.e. rectangular array), transect, nested‐cross and randomised. We contextualise our results by considering the locomotion of Pterostichus melanarius, a highly active carabid beetle often serving as a biocontrol agent for the suppression of pest insects and weeds. By simulating the trapping of randomly moving ground‐dwelling arthropods, we show that there is an optimal inter‐trap separation distance (trap spacing) that maximises captures, that can be expressed using exact formulae in terms of trap opening sizes, sampling area and trap number. Moreover, for the grid and nested‐cross arrangements, larger trap spacing to maximise spatial coverage over the whole sampling area is suboptimal. Also, we find that over a large sampling area, there is a hierarchical order for spatial arrangements in relation to capture efficiency: grid, randomised, transect, followed by the nested‐cross. However, over smaller sampling areas, this order is changed as the rate at which trap counts accumulate with trap number varies across arrangements—eventually saturating at different levels. In terms of movement effects, capture efficiency is maximised over a narrow diffusive range and does not depend strongly on the type of spatial arrangement—indicating an approximate optimal mode of arthropod activity, i.e. rate of spread. Our approach simultaneously considers several important experimental design aspects of pitfall trapping providing a basis to optimise and adapt sampling protocols to other types of traps to better reflect their various purposes, such as monitoring, conservation or pest management.

Published

2023

2. Global assessment of marine plastic exposure risk for oceanic birds

Author

Bethany L. Clark, Ana P. B. Carneiro, Elizabeth J. Pearmain, Marie-Morgane Rouyer, Thomas A. Clay, Win Cowger, Richard A. Phillips, Andrea Manica, Carolina Hazin, Marcus Eriksen, Jacob González-Solís, Josh Adams, Yuri V. Albores-Barajas, Joanna Alfaro-Shigueto, Maria Saldanha Alho, Deusa Teixeira Araujo, José Manuel Arcos, John P. Y. Arnould, Nadito J. P. Barbosa, Christophe Barbraud, Annalea M. Beard, Jessie Beck, Elizabeth A. Bell, Della G. Bennet, Maud Berlincourt, Manuel Biscoito, Oskar K. Bjørnstad, Mark Bolton, Katherine A. Booth Jones, John J. Borg, Karen Bourgeois, Vincent Bretagnolle, Joël Bried, James V. Briskie, M. de L. Brooke, Katherine C. Brownlie, Leandro Bugoni, Licia Calabrese, Letizia Campioni, Mark J. Carey, Ryan D. Carle, Nicholas Carlile, Ana R. Carreiro, Paulo Catry, Teresa Catry, Jacopo G. Cecere, Filipe R. Ceia, Yves Cherel, Chang-Yong Choi, Marco Cianchetti-Benedetti, Rohan H. Clarke, Jaimie B. Cleeland, Valentina Colodro, Bradley C. Congdon, Jóhannis Danielsen, Federico De Pascalis, Zoe Deakin, Nina Dehnhard, Giacomo Dell’Omo, Karine Delord, Sébastien Descamps, Ben J. Dilley, Herculano A. Dinis, Jerome Dubos, Brendon J. Dunphy, Louise M. Emmerson, Ana Isabel Fagundes, Annette L. Fayet, Jonathan J. Felis, Johannes H. Fischer, Amanda N. D. Freeman, Aymeric Fromant, Giorgia Gaibani, David García, Carina Gjerdrum, Ivandra Soeli Gonçalves Correia Gomes, Manuela G. Forero, José P. Granadeiro, W. James Grecian, David Grémillet, Tim Guilford, Gunnar Thor Hallgrimsson, Luke R. Halpin, Erpur Snær Hansen, April Hedd, Morten Helberg, Halfdan H. Helgason, Leeann M. Henry, Hannah F. R. Hereward, Marcos Hernandez-Montero, Mark A. Hindell, Peter J. Hodum, Simona Imperio, Audrey Jaeger, Mark Jessopp, Patrick G. R. Jodice, Carl G. Jones, Christopher W. Jones, Jón Einar Jónsson, Adam Kane, Sven Kapelj, Yuna Kim, Holly Kirk, Yann Kolbeinsson, Philipp L. Kraemer, Lucas Krüger, Paulo Lago, Todd J. Landers, Jennifer L. Lavers, Matthieu Le Corre, Andreia Leal, Maite Louzao, Jeremy Madeiros, Maria Magalhães, Mark L. Mallory, Juan F. Masello, Bruno Massa, Sakiko Matsumoto, Fiona McDuie, Laura McFarlane Tranquilla, Fernando Medrano, Benjamin J. Metzger, Teresa Militão, William A. Montevecchi, Rosalinda C. Montone, Leia Navarro-Herrero, Verónica C. Neves, David G. Nicholls, Malcolm A. C. Nicoll, Ken Norris, Steffen Oppel, Daniel Oro, Ellie Owen, Oliver Padget, Vítor H. Paiva, David Pala, Jorge M. Pereira, Clara Péron, Maria V. Petry, Admilton de Pina, Ariete T. Moreira Pina, Patrick Pinet, Pierre A. Pistorius, Ingrid L. Pollet, Benjamin J. Porter, Timothée A. Poupart, Christopher D. L. Powell, Carolina B. Proaño, Júlia Pujol-Casado, Petra Quillfeldt, John L. Quinn, Andre F. Raine, Helen Raine, Iván Ramírez, Jaime A. Ramos, Raül Ramos, Andreas Ravache, Matt J. Rayner, Timothy A. Reid, Gregory J. Robertson, Gerard J. Rocamora, Dominic P. Rollinson, Robert A. Ronconi, Andreu Rotger, Diego Rubolini, Kevin Ruhomaun, Asunción Ruiz, James C. Russell, Peter G. Ryan, Sarah Saldanha, Ana Sanz-Aguilar, Mariona Sardà-Serra, Yvan G. Satgé, Katsufumi Sato, Wiebke C. Schäfer, Stefan Schoombie, Scott A. Shaffer, Nirmal Shah, Akiko Shoji, Dave Shutler, Ingvar A. Sigurðsson, Mónica C. Silva, Alison E. Small, Cecilia Soldatini, Hallvard Strøm, Christopher A. Surman, Akinori Takahashi, Vikash R. V. Tatayah, Graeme A. Taylor, Robert J. Thomas, David R. Thompson, Paul M. Thompson, Thorkell L. Thórarinsson, Diego Vicente-Sastre, Eric Vidal, Ewan D. Wakefield, Susan M. Waugh, Henri Weimerskirch, Heiko U. Wittmer, Takashi Yamamoto, Ken Yoda, Carlos B. Zavalaga, Francis J. Zino, and Maria P. Dias

Subjects

Science

Abstract

Abstract Plastic pollution is distributed patchily around the world’s oceans. Likewise, marine organisms that are vulnerable to plastic ingestion or entanglement have uneven distributions. Understanding where wildlife encounters plastic is crucial for targeting research and mitigation. Oceanic seabirds, particularly petrels, frequently ingest plastic, are highly threatened, and cover vast distances during foraging and migration. However, the spatial overlap between petrels and plastics is poorly understood. Here we combine marine plastic density estimates with individual movement data for 7137 birds of 77 petrel species to estimate relative exposure risk. We identify high exposure risk areas in the Mediterranean and Black seas, and the northeast Pacific, northwest Pacific, South Atlantic and southwest Indian oceans. Plastic exposure risk varies greatly among species and populations, and between breeding and non-breeding seasons. Exposure risk is disproportionately high for Threatened species. Outside the Mediterranean and Black seas, exposure risk is highest in the high seas and Exclusive Economic Zones (EEZs) of the USA, Japan, and the UK. Birds generally had higher plastic exposure risk outside the EEZ of the country where they breed. We identify conservation and research priorities, and highlight that international collaboration is key to addressing the impacts of marine plastic on wide-ranging species.

Published

2023

3. Chick Provisioning in Grey-Faced Petrel (Pterodroma gouldi) under Environmental Stress

Author

James C. Russell, Jemma R. Welch, Rob Dunn, and Karen Bourgeois

Subjects

climate, foraging, petrel, provisioning, reproduction, seabird, Ecology, QH540-549.5, Animal culture, SF1-1100

Abstract

Grey-faced Petrels (Pterodroma gouldi) are colonial burrowing seabirds predominantly nesting on offshore islands of the upper North Island of New Zealand. We studied their chick provisioning on Te Hāwere-a-Maki during two years of unfavourable warmer La Niña conditions in 2011 and 2013. We intensively monitored chicks in each year, weighing chicks every 12 h for 10 consecutive days to estimate meal sizes following chick provisioning and to estimate 12-hourly body mass loss as a function of time since last feeding. We found a quadratic relationship of body mass loss with time since last feeding, with rapid digestion of meals following provisioning followed by a period of fasting from five days post feeding as chicks waited an unknown and variable amount of time until their next meal. The rate of body mass loss did not depend on chick age nor body mass, and did not differ between years, but heavier chicks included in our study were more likely to successfully fledge, suggesting a legacy of adult provisioning prior to our study commencing. Our regular handling of chicks for monitoring has no discernible impact on parent provisioning compared to a set of control chicks. The mean estimates of 100-gram meal sizes and 10-day foraging trip durations are likely to be below the break-even point for this species.

Published

2022

4. The global contribution of invasive vertebrate eradication as a key island restoration tool

Author

Dena R. Spatz, Nick D. Holmes, David J. Will, Stella Hein, Zachary T. Carter, Rachel M. Fewster, Bradford Keitt, Piero Genovesi, Araceli Samaniego, Donald A. Croll, Bernie R. Tershy, and James C. Russell

Subjects

Medicine, Science

Abstract

Abstract Islands are global hotspots for biodiversity and extinction, representing ~ 5% of Earth’s land area alongside 40% of globally threatened vertebrates and 61% of global extinctions since the 1500s. Invasive species are the primary driver of native biodiversity loss on islands, though eradication of invasive species from islands has been effective at halting or reversing these trends. A global compendium of this conservation tool is essential for scaling best-practices and enabling innovations to maximize biodiversity outcomes. Here, we synthesize over 100 years of invasive vertebrate eradications from islands, comprising 1550 eradication attempts on 998 islands, with an 88% success rate. We show a significant growth in eradication activity since the 1980s, primarily driven by rodent eradications. The annual number of eradications on islands peaked in the mid-2000s, but the annual area treated continues to rise dramatically. This trend reflects increases in removal efficacy and project complexity, generating increased conservation gains. Our synthesis demonstrates the collective contribution of national interventions towards global biodiversity outcomes. Further investment in invasive vertebrate eradications from islands will expand biodiversity conservation while strengthening biodiversity resilience to climate change and creating co-benefits for human societies.

Published

2022

5. Climatic Effects on Grey-Faced Petrel (Pterodroma gouldi) Chick Growth and Survival

Author

James C. Russell, Jemma R. Welch, Karen Bourgeois, Sylvain Dromzée, Rob Dunn, Megan R. Friesen, and Matt J. Rayner

Subjects

climate, growth, petrel, reproduction, seabird, southern oscillation, Ecology, QH540-549.5, Animal culture, SF1-1100

Abstract

Grey-faced Petrels (Pterodroma gouldi) are a colonial burrowing seabird predominantly nesting on offshore islands of the upper North Island of New Zealand. We studied their annual breeding biology and the impact of Southern Oscillation Index climatic effects by measuring colony productivity and chick growth rates from 2011 to 2015 on Te Hāwere-a-Maki as unfavorable warmer La Niña conditions changed to favorable cooler El Niño conditions. Across all five years, annual chick hatching consistently occurred within a one-week period at the end of August but fledging variably occurred over a three-week period following Christmas. Because ship rats are pest controlled on Te Hāwere-a-Maki, we found only a slight reduction in breeding success with nearby predator-free islands. However, chick growth and fledging rates were significantly higher under El Niño conditions occurring towards the end of our study, rather than La Niña conditions at the start of our study. Our regular handling of chicks for monitoring had no discernible impact compared to a set of control chicks. The combined impacts of annual variation in predation and climate mean the Grey-faced Petrel colony on Te Hāwere-a-Maki maintains a constant population size of around 100 burrows.

Published

2022

6. Social capital in the context of volunteer conservation initiatives

Author

Rosie V. Gerolemou, James C. Russell, and Margaret C. Stanley

Subjects

community conservation, conservation group, conservation volunteering, urban conservation, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Conservation volunteering aims to benefit species and ecosystems, but whether positive collective social outcomes exist for conservation group participants is largely unknown. To examine the importance of the collective social benefits from conservation, we surveyed members of the Auckland, New Zealand public to investigate social capital: the connections among people and the collective positive benefits that are enabled. We found members of community groups, particularly conservation groups, had higher social capital than people who did not participate in community groups. Members of multiple types of community group also had increased social capital scores. Conservation group members had more positive perceptions of pest management compared with members of the public not undertaking conservation action. Our findings indicate that conservation groups and their members are associated with collective social benefits not previously identified. Linking social capital benefits with ecological benefits could increase conservation's appeal to people more strongly motivated by personal well‐being and a sense of community, facilitating positive outcomes for them and the environment. To increase social capital at the community level, we recommend encouraging participation in community conservation.

Published

2022

7. Genetic structuring among colonies of a pantropical seabird: Implication for subspecies validation and conservation

Author

Laurence Humeau, Matthieu Le Corre, S. James Reynolds, Colin Wearn, Janos C. Hennicke, James C. Russell, Yann Gomard, Hélène Magalon, Patrick Pinet, Pauline Gélin, François‐Xavier Couzi, Etienne Bemanaja, Vikash Tatayah, Bacar Ousseni, Gérard Rocamora, Patrick Talbot, Nirmal Shah, Leandro Bugoni, Denis Da Silva, and Audrey Jaeger

Subjects

conservation status, genetic structure, Phaethon lepturus, subspecies status, Ecology, QH540-549.5

Abstract

Abstract Investigations of the genetic structure of populations over the entire range of a species yield valuable information about connectivity among populations. Seabirds are an intriguing taxon in this regard because they move extensively when not breeding, facilitating intermixing of populations, but breed consistently on the same isolated islands, restricting gene flow among populations. The degree of genetic structuring of populations varies extensively among seabird species but they have been understudied in their tropical ranges. Here, we address this across a broad spatial scale by using microsatellite and mitochondrial data to explore the population connectivity of 13 breeding populations representing the six subspecies of the white‐tailed tropicbird (Phaethon lepturus) in the Atlantic, Indian, and Pacific Oceans. Our primary aim was to identify appropriate conservation units for this little known species. Three morphometric characters were also examined in the subspecies. We found a clear pattern of population structuring with four genetic groups. The most ancient and the most isolated group was in the northwestern Atlantic Ocean. The South Atlantic populations and South Mozambique Channel population on Europa were genetically isolated and may have had a common ancestor. Birds from the Indo‐Pacific region showed unclear and weak genetic differentiation. This structuring was most well defined from nuclear and mtDNA markers but was less well resolved by morphological data. The validity of classifying white‐tailed tropicbirds into six distinct subspecies is discussed in light of our new findings. From a conservation standpoint our results highlight that the three most threatened conservation units for this species are the two subspecies of the tropical North and South Atlantic Oceans and that of Europa Island in the Indian Ocean.

Published

2020

8. Using genetics to plan black rat (Rattus rattus) management in Fernando de Noronha archipelago, Brazil

Author

Fernanda Gatto-Almeida, Florian Pichlmueller, Tatiane Micheletti, Carlos R. Abrahão, Paulo R. Mangini, and James C. Russell

Subjects

Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Invasive mammals such as rats are associated with negative impacts on native fauna and their eradication on islands around the world has been proved to result in substantial conservation gains. Fernando de Noronha is an archipelago located off the north-east coast of Brazil and has records of native fauna negatively impacted by introduced rats. We used D-Loop sequences and 14 microsatellite markers to investigate gene flow between three populations of Rattus rattus across two islands of Fernando de Noronha. Using both methods we found very great differentiation between the two islands, indicating very low or no gene flow. Our findings suggested if Rata Island were cleared of rats it would have a low probability of reinvasion occurring from the main island. Thus, we recommend an eradication program be implemented on Rata Island following the successful program on nearby Meio Island.

Published

2020

9. Seabird predation effects and population viability analysis indicate the urgent need for rat eradication from Europa Island, western Indian Ocean

Author

Merlene SAUNIER, Maxime Amy, Christophe Barbraud, Patrick Pinet, David Ringler, James C. Russell, and Matthieu Le Corre

Subjects

conservation, eradication, management, population viability analysis, predation, seabird, Ecology, QH540-549.5

Abstract

Rats are among the worst invasive alien predators. They prey upon eggs, chicks, and sometimes adults of seabirds, leading to the decline of many populations. Rats have invaded 93% of the islands in the western Indian Ocean, which is an avian biodiversity hotspot. Europa Island, Mozambique Channel, is a major seabird breeding site, where at least 1,000,000 pairs bred at the end of 20th century, including the endemic white-tailed tropicbirds (Phaethon lepturus europae). This species and the red-tailed tropicbird (Phaethon rubricauda) are vulnerable to predation by black rat (Rattus rattus), barn owl (Tyto alba), and pied-crow (Corvus albus) on Europa Island. In this study, we estimate the current population sizes of these tropicbird species and their breeding success. The impact of predators on tropicbird nests was quantified with camera traps. Finally, we model the dynamics of these populations under three management scenarios (no action, complete rat eradication, and targeted control of rats around nests). In 2019, 1,027 pairs of red-tailed and 100 pairs of white-tailed tropicbirds bred on Europa Island, which indicates an annual decline of 5% and 17% since 2009, respectively. Breeding success of red-tailed tropicbirds and white-tailed tropicbirds was extremely low (0.08 ± 0.07 and 0.06 ± 0.03 respectively). Rats were detected at most surveyed nests and were the main predators of eggs and chicks. Pied-crows and barn owls also depredated nests occasionally. Population viability analysis projected a local extinction in 32–85 years for the red-tailed tropicbird, and in 11–50 years for white-tailed tropicbirds without conservation intervention. The complete eradication of rats would result in a rapid recovery of both populations. Rat control around nests only would result in population recovery only if 74% of the nests of white-tailed and 63% of the nests of red-tailed tropicbirds are free of rats.

Published

2022

10. Assessing Two Different Aerial Toxin Treatments for the Management of Invasive Rats

Author

Tess D. R. O’Malley, Margaret C. Stanley, and James C. Russell

Subjects

density, eradication, invasive species, predator-free, Rattus rattus, rodent, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Aotearoa–New Zealand has embarked on an ambitious goal: to completely eradicate key invasive mammals by 2050. This will require novel tools capable of eliminating pests on a large scale. In New Zealand, large-scale pest suppression is typically carried out using aerial application of the toxin sodium fluoroacetate (1080). However, as currently applied, this tool does not remove all individuals. A novel application method, dubbed ‘1080-to-zero’, aims to change this and reduce the abundances of target pests to zero or near-zero. One such target is black rats (Rattus rattus), an invasive species challenging to control using ground-based methods. This study monitored and compared the response of black rats to a 1080-to-zero operation and a standard suppression 1080 operation. No difference in the efficacy of rat removal was found between the two treatments. The 1080-to-zero operation did not achieve its goal of rat elimination or reduction to near-zero levels, with an estimated 1540 rats surviving across the 2200 ha treatment area. However, 1080 operations can produce variable responses, and the results observed here differ from the only other reported 1080-to-zero operation. We encourage further research into this tool, including how factors such as ecosystem type, mast fruiting and operational timing influence success.

Published

2022

11. Management of cats and rodents on inhabited islands: An overview and case study of Fernando de Noronha, Brazil

Author

James C. Russell, Carlos R. Abrahão, Jean C.R. Silva, and Ricardo A. Dias

Subjects

Conservation, Control, Eradication, Invasive, Mice, Rats, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

In this paper, an overview of introduced cat and rodent impacts on islands, and methods for their control and eradication, are presented. Fernando de Noronha, an inhabited oceanic island of Brazil, is used as a case study to illustrate the challenges of cat and rodent management on inhabited islands. Cat impacts have been recorded for 175 vertebrate species, and rat impacts for 173 plant and animal species. Eradication of cats and rodents for species conservation has been successful on small to medium- sized uninhabited or sparsely inhabited islands. However, examples of successful cat and rodent management programmes for biodiversity on inhabited islands are limited. On inhabited islands localised control of cats and rodents occurs, but historically with a focus on agriculture, human livelihoods and animal welfare, and only more recently on native species conservation. Control of cats and rodents on inhabited islands for species conservation lags behind uninhabited islands and the reasons for this are social and complex. Conservation managers often perceive a lack of support from island residents or administrators, which may or may not actually be the case. Where support does not exist, it may relate to the provisioning of control versus eradication, the techniques proposed, or wider socioeconomic issues. This ultimately translates to conservation inaction, and the ongoing decline and extinction of island fauna. Abundance estimates for cats and density estimates for rats on Fernando de Noronha are presented, along with documented biodiversity impacts, to support recommendations for future management on Fernando de Noronha.

Published

2018

12. Of Mice, Cattle, and Men: A Review of the Eco-Epidemiology of Leptospira borgpetersenii Serovar Ballum

Author

Marie Moinet, David A. Wilkinson, Danielle Aberdein, James C. Russell, Emilie Vallée, Julie M. Collins-Emerson, Cord Heuer, and Jackie Benschop

Subjects

disease ecology, emerging infectious diseases, infectious disease reservoirs, liaison host, species barrier, wildlife–livestock interface, Medicine

Abstract

In New Zealand (NZ), leptospirosis is a mostly occupational zoonosis, with >66% of the recently notified cases being farm or abattoir workers. Livestock species independently maintain Leptospira borgpetersenii serovar Hardjo and L. interrogans serovar Pomona, and both are included in livestock vaccines. The increasing importance in human cases of Ballum, a serovar associated with wildlife, suggests that wildlife may be an overlooked source of infection. Livestock could also act as bridge hosts for humans. Drawing from disease ecology frameworks, we chose five barriers to include in this review based on the hypothesis that cattle act as bridge hosts for Ballum. Using a narrative methodology, we collated published studies pertaining to (a) the distribution and abundance of potential wild maintenance hosts of Ballum, (b) the infection dynamics (prevalence and pathogenesis) in those same hosts, (c) Ballum shedding and survival in the environment, (d) the exposure and competency of cattle as a potential bridge host, and (e) exposure for humans as a target host of Ballum. Mice (Mus musculus), rats (Rattus rattus, R. norvegicus) and hedgehogs (Erinaceus europaeus) were suspected as maintenance hosts of Ballum in NZ in studies conducted in the 1970s–1980s. These introduced species are distributed throughout NZ, and are present on pastures. The role of other wildlife in Ballum (and more broadly Leptospira) transmission remains poorly defined, and has not been thoroughly investigated in NZ. The experimental and natural Ballum infection of cattle suggest a low pathogenicity and the possibility of shedding. The seroprevalence in cattle appears higher in recent serosurveys (3 to 14%) compared with studies from the 1970s (0 to 3%). This review identifies gaps in the knowledge of Ballum, and highlights cattle as a potential spillover host. Further studies are required to ascertain the role that wild and domestic species may play in the eco-epidemiology of Ballum in order to understand its survival in the environment, and to inform control strategies.

Published

2021

13. Future Directions in Conservation Research on Petrels and Shearwaters

Author

Airam Rodríguez, José M. Arcos, Vincent Bretagnolle, Maria P. Dias, Nick D. Holmes, Maite Louzao, Jennifer Provencher, André F. Raine, Francisco Ramírez, Beneharo Rodríguez, Robert A. Ronconi, Rebecca S. Taylor, Elsa Bonnaud, Stephanie B. Borrelle, Verónica Cortés, Sébastien Descamps, Vicki L. Friesen, Meritxell Genovart, April Hedd, Peter Hodum, Grant R. W. Humphries, Matthieu Le Corre, Camille Lebarbenchon, Rob Martin, Edward F. Melvin, William A. Montevecchi, Patrick Pinet, Ingrid L. Pollet, Raül Ramos, James C. Russell, Peter G. Ryan, Ana Sanz-Aguilar, Dena R. Spatz, Marc Travers, Stephen C. Votier, Ross M. Wanless, Eric Woehler, and André Chiaradia

Subjects

management, marine environment, marine predator, population dynamics, Procellariiformes, research priorities, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Shearwaters and petrels (hereafter petrels) are highly adapted seabirds that occur across all the world’s oceans. Petrels are a threatened seabird group comprising 124 species. They have bet-hedging life histories typified by extended chick rearing periods, low fecundity, high adult survival, strong philopatry, monogamy and long-term mate fidelity and are thus vulnerable to change. Anthropogenic alterations on land and at sea have led to a poor conservation status of many petrels with 52 (42%) threatened species based on IUCN criteria and 65 (52%) suffering population declines. Some species are well-studied, even being used as bioindicators of ocean health, yet for others there are major knowledge gaps regarding their breeding grounds, migratory areas or other key aspects of their biology and ecology. We assembled 38 petrel conservation researchers to summarize information regarding the most important threats according to the IUCN Red List of threatened species to identify knowledge gaps that must be filled to improve conservation and management of petrels. We highlight research advances on the main threats for petrels (invasive species at breeding grounds, bycatch, overfishing, light pollution, climate change, and pollution). We propose an ambitious goal to reverse at least some of these six main threats, through active efforts such as restoring island habitats (e.g., invasive species removal, control and prevention), improving policies and regulations at global and regional levels, and engaging local communities in conservation efforts.

Published

2019

14. Phylogeography of Invasive Rats in New Zealand

Author

James C. Russell, Judith H. Robins, and Rachel M. Fewster

Subjects

D-loop, genetics, island, mitochondrial DNA, rattus, rodent, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Two species of invasive rats (Rattus norvegicus and R. rattus) arrived in New Zealand with Europeans in the mid to late eighteenth and nineteenth century respectively. They rapidly spread across the main islands of New Zealand and its offshore islands, displacing the historically introduced R. exulans. Today both species are widespread although the distribution of the sub-dominant R. norvegicus is patchy. Tissue samples were obtained from 425 R. rattus and 130 R. norvegicus across the New Zealand archipelago and neighboring islands. We sequenced a standard 545 base pair section of the mitochondrial D-loop in order to construct a modern phylogeography of the two species and to make inference on historical invasion pathways and spread across the country. We found limited diversity in R. norvegicus haplotypes, with two widespread haplotypes across New Zealand and its offshore islands most likely corresponding to two independent invasions, potentially with English and Chinese origins, respectively. In contrast we found widespread diversity in R. rattus haplotypes across New Zealand and its offshore islands, most likely corresponding to at least four independent invasions to the main North and South Islands, Great Barrier Island archipelago, and Stewart Island archipelago. The most common R. rattus haplogroup was found throughout New Zealand and many of its offshore islands, as well as neighboring islands in the Tasman Sea, and has been documented elsewhere across the Pacific, but with European origins. We also found both geographic partitioning and secondary invasions of haplotypes within the main North and South Island. In addition to distinct haplogroups differing by over three base pairs, which exhibit geographical partitioning suggestive of independent invasion events, for both species we also found instances of single base-pair differences within localities, elevating haplotype diversity. The geographical distribution of pelage color morphs also correlates with haplotype distribution, lending further support to the hypothesis and role of independent invasion events.

Published

2019

15. Introduced mammals on Western Indian Ocean islands

Author

James C. Russell, Nik C. Cole, Nicolas Zuël, and Gérard Rocamora

Subjects

La Réunion, Madagascar, Maldives, Mascarene, Mauritius, Seychelles, Zanzibar, Ecology, QH540-549.5

Abstract

The diversity of introduced mammals and their introduction history varies greatly across the Western Indian Ocean (WIO) islands, from ancient introductions in the past millennia on islands off the East coast of Africa where extant terrestrial native mammal communities exist, to very recent invasions in the past decades on islands in the Mascarene archipelago. We compile the distribution of 16 introduced mammal taxa on 28 island groups comprising almost 2000 islands. Through an exhaustive literature review and expert consultation process we recorded all mammal eradications, and species recoveries which could be attributed to introduced mammal eradication or control. All island groups have been invaded by mammals, and invasive cats and rats in particular are ubiquitous, but cultural contingency has also led to regional invasions by other mammals such as lemurs, civets and tenrecs. Mammal eradications have been attempted on 45 islands in the WIO, the majority in the Seychelles and Mauritius, and where successful have resulted in spectacular recovery of species and ecosystems. Invasive mammalian predator eradication or control in association with habitat management has led to improved conservation prospects for at least 24 species, and IUCN red-list down-listing of eight species, in the Mascarene Islands. Future island conservation prioritisation in the region will need to take account of global climate change and predicted sea-level rises and coastal inundation. Greater investment and prioritisation in island conservation in the region is warranted, given its high biodiversity values and the extent of invasions.

Published

2016

16. The genomic ancestry, landscape genetics and invasion history of introduced mice in New Zealand

Author

Andrew J. Veale, James C. Russell, and Carolyn M. King

Subjects

mus musculus, mitochondrial capture, subspecies hybridization, sterility, invasion, phylogeography, Science

Abstract

The house mouse (Mus musculus) provides a fascinating system for studying both the genomic basis of reproductive isolation, and the patterns of human-mediated dispersal. New Zealand has a complex history of mouse invasions, and the living descendants of these invaders have genetic ancestry from all three subspecies, although most are primarily descended from M. m. domesticus. We used the GigaMUGA genotyping array (approximately 135 000 loci) to describe the genomic ancestry of 161 mice, sampled from 34 locations from across New Zealand (and one Australian city—Sydney). Of these, two populations, one in the south of the South Island, and one on Chatham Island, showed complete mitochondrial lineage capture, featuring two different lineages of M. m. castaneus mitochondrial DNA but with only M. m. domesticus nuclear ancestry detectable. Mice in the northern and southern parts of the North Island had small traces (approx. 2–3%) of M. m. castaneus nuclear ancestry, and mice in the upper South Island had approximately 7–8% M. m. musculus nuclear ancestry including some Y-chromosomal ancestry—though no detectable M. m. musculus mitochondrial ancestry. This is the most thorough genomic study of introduced populations of house mice yet conducted, and will have relevance to studies of the isolation mechanisms separating subspecies of mice.

Published

2018

17. The Eradication of Invasive Mammal Species: Can Adaptive Resource Management Fill the Gaps in our Knowledge?

Author

Sugoto Roy, Graham C. Smith, and James C. Russell

Subjects

exotic species, human–wildlife conflicts, invasive species, questionnaire, survey, Environmental sciences, GE1-350, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Invasive alien species (IAS) threaten global biodiversity; they are the major cause of species extinction on offshore islands. Management of IAS requires data on the ecology of species in their new environment, how these species respond to management, and how these processes interact. Often, however, there is a paucity of information on key biological parameters that are critical to making management decisions. We sent a questionnaire to professionals and organizations managing invasive species and asked the respondents to prioritize a list of information they required to carry out eradication of invasive species. We analysed responses to assess the level of agreement among experts. Then, we compared them to a survey ranking available information in the peer-reviewed literature. We did this for 8 globally-important mammal species to identify gaps in available knowledge. We suggest that many of the shortfalls in knowledge can be best addressed through adaptive resource management (i.e., collecting data during the process of carrying out eradication itself, analyzing and processing these data, and using the information to make objective decisions that can be fed back into fi eld operations). We recommend a modelling approach to enable the forecasting and testing of different scenarios when manipulative experimentation is impossible. As this process evolves, it should assist successful eradication of IAS on larger islands.

Published

2017

18. Mechanisms Of Co-Morbidities Associated With The Metabolic Syndrome: Insights From The JCR:La-Cp Corpulent Rat Strain

Author

Abdoulaye Diane, David Pierce, Sandra E. Kelly, Sharon Sokolik, Faye Borthwick, Miriam Jacome-Sosa, Rabban Mangat, JESUS MIGUEL PRADILLO, Stuart McRae Allan, Megan R. Ruth, Catherine J. Field, Rebecca Hutcheon, Petra Rocic, James C. Russell, Donna F Vine, and Spencer D. Proctor

Subjects

Cardiovascular Diseases, Inflammation, Obesity, metabolic syndrome, Immune function, pcos, Nutrition. Foods and food supply, TX341-641

Abstract

Obesity and its metabolic complications have emerged as the epidemic of the new millennia. The use of obese rodent models continues to be a productive component of efforts to understand the concomitant metabolic complications of this disease. In 1978, the JCR:LA-cp rat model was developed with an autosomal recessive corpulent (cp) trait resulting from a premature stop codon in the extracellular domain of the leptin receptor. Rats that are heterozygous for the cp trait are lean-prone, while those that are homozygous (cp/cp) spontaneously display the pathophysiology of obesity as well as a metabolic syndrome-like phenotype. Over the years, there have been formidable scientific contributions that have originated from this rat model, much of which has been reviewed extensively up to 2008. The premise of these earlier studies focused on characterizing the pathophysiology of metabolic syndrome-like phenotype that was spontaneously apparent in this model. The purpose of this review is to highlight areas of recent advancement made possible by this model including; emerging appreciation of the ‘thrifty gene’ hypothesis in the context of obesity, the concept of how chronic inflammation may drive obesogenesis, the impact of acute forms of inflammation to the brain and periphery during chronic obesity, the role of dysfunctional insulin metabolism on lipid metabolism and vascular damage, the mechanistic basis for altered vascular function as well as novel parallels between the human condition and the female JCR:LA-cp rat as a model for polycystic ovary disease (PCOS).

Published

2016

19. Increased hepatic VLDL secretion, lipogenesis, and SREBP-1 expression in the corpulent JCR:LA-cp rat

Author

Marshall B. Elam, Henry G. Wilcox, Lauren M. Cagen, Xiong Deng, Rajendra Raghow, Poonam Kumar, Murray Heimberg, and James C. Russell

Subjects

animal, cells cultured, liver, obesity, insulin, apolipoprotein, Biochemistry, QD415-436

Abstract

The corpulent JCR:LA-cp rat (cp/cp) is a useful model for study of the metabolic consequences of obesity and hyperinsulinemia. To assess the effect of hyperinsulinemia on VLDL secretion in this model, we measured rates of secretion of VLDL in perfused livers derived from cp/cp rats and their lean littermates. Livers of cp/cp rats secreted significantly greater amounts of VLDL triglyceride and apolipoprotein, compared with lean littermates. The content of apoB, apoE, and apoCs in both perfusate and plasma VLDL was greater in the cp/cp rat, as was the apolipoprotein (apo)C, apoA-I, and apoA-IV content of plasma HDL. Triglyceride content was also greater in cp/cp livers, as was hepatic lipogenesis and expression of lipogenic enzymes and sterol regulatory element binding protein-1 (SREBP-1). Hepatic mRNAs for apoE, and apoA-I were higher in livers of cp/cp rats. In contrast, the steady state levels of apoC-II, apoC-III, and apoB mRNAs were unchanged. Thus, livers of obese hyperinsulinemic cp/cp JCR:LA-cp rats secrete a greater number of VLDL particles that are enriched in triglyceride, apoE, and apoC. Greater secretion of VLDL in the cp/cp rat in part results from higher endogenous fatty acid synthesis, which in turn may occur in response to increased expression of the lipogenic enzyme regulator SREBP-1c.—Elam, M. B., H. G. Wilcox, L. M. Cagen, X. Deng, R. Raghow, P. Kumar, M. Heimberg, and J. C. Russell. Increased hepatic VLDL secretion, lipogenesis, and SREBP-1 expression in the corpulent JCR:LA-cp rat. J. Lipid Res. 2001. 42: 2039–2048.

Published

2001

20. Phylogeography of Rattus norvegicus in the South Atlantic Ocean

Author

Melanie Hingston, Sally Poncet, Ken Passfield, Michael A. Tabak, Sofia I. Gabriel, Stuart B. Piertney, and James C. Russell

Subjects

commensals, invasive species, island phylogeography, mitochondrial DNA, pest management, Rattus norvegicus, South Atlantic, Biology (General), QH301-705.5

Abstract

Norway rats are a globally distributed invasive species, which have colonized many islands around the world, including in the South Atlantic Ocean. We investigated the phylogeography of Norway rats across the South Atlantic Ocean and bordering continental countries. We identified haplotypes from 517 bp of the hypervariable region I of the mitochondrial D-loop and constructed a Bayesian consensus tree and median-joining network incorporating all other publicly available haplotypes via an alignment of 364 bp. Three Norway rat haplotypes are present across the islands of the South Atlantic Ocean, including multiple haplotypes separated by geographic barriers within island groups. All three haplotypes have been previously recorded from European countries. Our results support the hypothesis of rapid Norway rat colonization of South Atlantic Ocean islands by sea-faring European nations from multiple European ports of origin. This seems to have been the predominant pathway for repeated Norway rat invasions of islands, even within the same archipelago, rather than within-island dispersal across geographic barriers.

Published

2016

21. Community-led vertebrate pest management in urban areas: barriers and motivations

Author

Rosie V Gerolemou, James C Russell, and Margaret C Stanley

Subjects

community conservation, invasive species, new zealand, pest control, urban conservation, volunteer, Biology (General), QH301-705.5, Ecology, QH540-549.5

Abstract

Residential green spaces in cities can make a significant contribution to urban conservation. To engage urban residents in conservation, we need to understand what influences participation. We interviewed leaders of community conservation groups and surveyed members of the public in Auckland, New Zealand using an anonymous questionnaire. We investigated whether environmental attitudes differ between those who do and do not participate in conservation actions (volunteering in a community conservation group and/or controlling pest mammals), and the motivations and barriers to participating in conservation actions. We found that conservation leaders often founded their conservation groups with a biodiversity motivation, whereas many of their group members subsequently joined and continued to participate for social reasons. Conservation group members were more likely to be in favor of pest control and had more positive environmental attitudes than non-participants. They found group work more motivating and productive than working alone. For people already participating in conservation (controlling pests, leading a group, or volunteering), the most common barrier to increasing participation was opportunity, most notably a lack of time. We found that people tended to control pest mammals for self-interested reasons, such as preventing damage to their homes (67%; n = 358), whilst biodiversity motivations (protecting native species) were secondary (53%; n = 283). For people not participating in pest control, the primary barrier was a lack of interest in participating (26%; n = 109). Although people were supportive of conservation, biodiversity motivations alone are unlikely to be a sufficient motivator for participation. Given the range of different motivations and barriers, targeted messaging (e.g., promoting social connections) could increase participation in urban conservation.

Published

2024

22. Incorporating management action suitability in conservation plans

Author

Zachary T. Carter, Jeffrey O. Hanson, George L. W. Perry, and James C. Russell

Subjects

Ecology

Published

2022

23. The tails of two invasive species: genetic responses to acute and chronic bottlenecks

Author

Fernanda Gatto-Almeida, Florian Pichlmueller, Thomas W. Bodey, Araceli Samaniego, and James C. Russell

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Abstract

Genetic diversity can affect population viability and can be reduced by both acute and chronic mechanisms. Using the history of the establishment and management of two invasive rat species on Tetiaroa atoll, French Polynesia, we investigated the intensity and longevity of contrasting population bottleneck mechanisms on genetic diversity and bottleneck signal. Using microsatellite loci we show how both a chronic reduction over approximately 50 years of a Rattus exulans population caused by the arrival of its competitor R. rattus, and an acute reduction in a R. rattus population caused by a failed eradication approximately 10 years ago, caused similar magnitudes of genetic diversity loss. Furthermore, these strong bottleneck signals were in addition to the lasting signal from initial colonisation by each species many decades to centuries earlier, characterising a genetic paradox of biological invasion. These findings have implications for the study of population genetics of invasive species, and underscore how important historical context of population dynamics is when interpreting snapshots of genetic diversity.

Published

2022

24. Data from Treating Cancer as an Invasive Species

Author

Jeffrey H. Chuang, James C. Russell, Zi-Ming Zhao, and Javad Noorbakhsh

Abstract

To cure a patient's cancer is to eradicate invasive cells from the ecosystem of the body. However, the ecologic complexity of this challenge is not well understood. Here we show how results from eradications of invasive mammalian species from islands—one of the few contexts in which invasive species have been regularly cleared—inform new research directions for treating cancer. We first summarize the epidemiologic characteristics of island invader eradications and cancer treatments by analyzing recent datasets from the Database of Invasive Island Species Eradications and The Cancer Genome Atlas, detailing the superior successes of island eradication projects. Next, we compare how genetic and environmental factors impact success in each system. These comparisons illuminate a number of promising cancer research and treatment directions, such as heterogeneity engineering as motivated by gene drives and adaptive therapy; multiscale analyses of how population heterogeneity potentiates treatment resistance; and application of ecological data mining techniques to high-throughput cancer data. We anticipate that interdisciplinary comparisons between tumor progression and invasive species would inspire development of novel paradigms to cure cancer.

Published

2023

25. Supplementary Table S1 from Treating Cancer as an Invasive Species

Author

Jeffrey H. Chuang, James C. Russell, Zi-Ming Zhao, and Javad Noorbakhsh

Abstract

Table S1: (A) Summary of success rates for six mammalian invasive species under different eradication strategies. 95% confidence interval (CI) was calculated using binomial proportion CI with Jeffreys prior; (B) Summary of success rates (Kaplan-Meier five-year survival rates) for different tumor types under different treatment options. 95% CI was calculated using exponential Greenwood CI for Kaplan-Meier estimator and beta product procedure.

Published

2023

26. Seabird stress and breeding: Endocrine and hematological stress biomarkers differ between gray‐faced petrel ( Pterodroma gouldi ) colonies

Author

Edin A. Whitehead, James C. Russell, Anthony J. Hickey, Graeme A. Taylor, Katie M. O'Reilly, Alice Della Penna, and Brendon J. Dunphy

Subjects

Birds, Physiology, Reproduction, Genetics, Animals, Animal Science and Zoology, Feathers, Corticosterone, Molecular Biology, Biomarkers, Ecology, Evolution, Behavior and Systematics

Abstract

Seabird breeding success is known to reflect oceanic conditions. Gray-faced petrels (Pterodroma gouldi) breeding on the east coast of Auckland, New Zealand, exhibit poor reproductive success and slow chick development compared to west coast conspecifics. This study mapped changes in physiological traits (corticosterone [CORT] and hematological parameters) indicative of sublethal stress in this Procellariiform species between the west coast (Ihumoana) and east coast (Hāwere) island colonies. We found adult gray-faced petrels on the east coast to be lighter and, unlike west coast birds, exhibited an attenuation of response CORT levels between incubation and chick-rearing phases. Such responses were also reflected in east coast chicks that were lighter and had higher feather CORT titers than west coast chicks. Measures of adult hematology and plasma biochemistry revealed significantly lower glucose levels in east coast birds and indicated that chick rearing is the most stressful phase of breeding for this species Combined; these results suggest that east coast birds are under greater nutritional stress and that parents appear to transfer the costs of poor foraging to their chicks to preserve their own condition, consequently increasing chick developmental stress. Our results suggest that any long-term decrease in ocean conditions and/or climatic shifts would be more acutely felt by east coast chicks and potentially their parents, resulting in years of poor breeding success rates on a local scale.

Published

2022

27. Behaviour of invasive ship rats, Rattus rattus, around Goodnature A24 self-resetting traps

Author

Markus Gronwald and James C. Russell

Subjects

Ecology, Management, Monitoring, Policy and Law, Ecology, Evolution, Behavior and Systematics

Published

2022

28. Conservation of marine birds: Biosecurity, control, and eradication of invasive species threats

Author

Nick D. Holmes, Rachel T. Buxton, Holly P. Jones, Federico Méndez Sánchez, Steffen Oppel, James C. Russell, Dena R. Spatz, and Araceli Samaniego

Published

2023

29. Improved segmentation for footprint recognition of small mammals.

Author

Bok-Suk Shin, Yihui Zheng, James C. Russell, and Reinhard Klette

Published

2012

30. Feature Extraction and Classification for Insect Footprint Recognition.

Author

Bok-Suk Shin, James C. Russell, and Reinhard Klette

Published

2012

31. A Flexible Method for Localisation and Classification of Footprints of Small Species.

Author

Haokun Geng, James C. Russell, Bok-Suk Shin, Radu Nicolescu, and Reinhard Klette

Published

2011

32. Tracking Small Artists.

Author

James C. Russell, Reinhard Klette, and Chia-Yen Chen

Published

2009

33. Rodenticide baiting black rats (

Author

Martin Cagnato, Mickaël Baumann, Nicolas Guillerault, David Ringler, and James C. Russell

Subjects

0106 biological sciences, Ecology, media_common.quotation_subject, Intertidal zone, Context (language use), Population biology, Management, Monitoring, Policy and Law, Biology, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 010601 ecology, Habitat, Temperate climate, Rodenticide, Mangrove, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Context Mangroves and intertidal habitats have been identified as particularly challenging environments for bait application within both tropical and temperate environments, because bait applied to areas that are tidally inundated could degrade rapidly or become inaccessible to rats. Aims To determine rat density, ranging behaviour and probability of detection using different monitoring devices; additionally, to determine the availability (persistence, durability and uptake) of rodenticide baits within tidally inundated mangrove habitats. Methods The population biology of black rats (Rattus rattus) was studied in two contrasting mangrove habitats on Europa Island, and spatially explicit mark–recapture studies were performed to estimate densities and activity of rats. A series of bait availability trials was conducted to determine the durability of rodenticide baits on the ground and uptake in the canopy (‘bait bolas’). Key results Black rats were found to be abundant in mangrove, and despite daily tidal inundation, still maintained ranging behaviour consistent with rats in adjacent terrestrial habitats. Larger rodenticide bait blocks remained within tidally inundated habitat throughout tidal cycles and were available and remained palatable to rats for at least three consecutive nights, although strong bait competition occurred with crabs. Bait bolas were available in mangrove canopy exclusively to rats and consumption commenced on the first night. Conclusions The results provide evidence that mangrove habitats are an important habitat for rats, but the biology of rats in these habitats does not meaningfully differ from adjacent terrestrial habitats. With the use of larger rodenticide blocks, tidal inundation does not affect bait availability, but crabs remain a major competitor for these baits. Alternatively, the present study revealed that bait bolas limit bait access to rats alone. Development as an aerial eradication technology should be also recommended. Implications These results provide a proof of concept that eradication of rats from tidally inundated habitats such as mangrove should be possible with only small modifications to current best practice.

Published

2021

34. Island invasion and reinvasion: Informing invasive species management with genetic measures of connectivity

Author

Jamie W. B. MacKay, John Henderson, Rachel M. Fewster, Elaine C. Murphy, James C. Russell, and Florian Pichlmueller

Subjects

Ecology, Microsatellite, Biology, Invasive species, Gene flow

Published

2020

35. A strategic social impact assessment for Predator-Free Rakiura, New Zealand, with a human–ecological approach

Author

Katherine J. Russell, C. Nicholas Taylor, and James C. Russell

Subjects

Rakiura, Social impact assessment, biology, business.industry, Environmental resource management, Societal Dimensions, General Medicine, biology.organism_classification, Geography, Urban ecology, Ecological psychology, Mainland, business, Baseline (configuration management), Restoration ecology

Abstract

Stewart Island/Rakiura, the third largest island in New Zealand, around 30 km off the South Island, provides sanctuaries for endangered species and subsequent work on ecological restoration. The natural environment of Rakiura is nationally significant, with habitats and ecosystems that, physically and ecologically, are highly interdependent and relatively unmodified in comparison with mainland New Zealand. We undertook a strategic social impact assessment of a programme to achieve Predator-Free Rakiura (to remove introduced mammalian predators from the island), using a human–ecological approach whereby a participatory process scoped key issues and effects, described a social baseline and assessed different options for future conservation management. The research found local efforts at predator control could be supported by a clear vision and strategic pathway, along with better information on biological and technical components. The findings include a framework to link better the ecological and societal dimensions of islands in future planning of predator control and conservation management.

Published

2020

36. Public Opinion Towards Gene Drive as a Pest Control Approach for Biodiversity Conservation and the Association of Underlying Worldviews

Author

Robyn Kannemeyer, Wokje Abrahamse, Bob Frame, Nick Kirk, Alison Greenaway, Fabien Medvecky, Daniel M. Tompkins, Taciano L. Milfont, Eric D. Edwards, Edith A. MacDonald, Jovana Balanovic, and James C. Russell

Subjects

0106 biological sciences, ComputingMilieux_THECOMPUTINGPROFESSION, 010504 meteorology & atmospheric sciences, business.industry, Association (object-oriented programming), Pest control, Environmental ethics, Gene drive, Management, Monitoring, Policy and Law, Environmental Science (miscellaneous), Public opinion, 010603 evolutionary biology, 01 natural sciences, Environmental studies, Synthetic biology, Geography, CRISPR, business, Social dominance orientation, 0105 earth and related environmental sciences

Abstract

Synthetic gene drive approaches are nascent technologies with potential applicability for pest control for conservation purposes. Responsible science mandates that society be engaged in a dialogue ...

Published

2020

37. Determining the underlying structure of insular isolation measures

Author

James C. Russell, George L. W. Perry, and Zachary T. Carter

Subjects

Structure (mathematical logic), Geography, Ecology, Isolation (health care), Geographical isolation, Evolutionary biology, Ecology (disciplines), Ecology, Evolution, Behavior and Systematics, Landscape connectivity

Published

2020

38. Risks posed by rat reproduction and diet to eradications on tropical islands

Author

Nick D. Holmes, James C. Russell, Ben C. Stevenson, Araceli Samaniego, Steffen Oppel, Richard A. Griffiths, and Markus Gronwald

Subjects

0106 biological sciences, Rattus exulans, Ecology, biology, 010604 marine biology & hydrobiology, media_common.quotation_subject, Social benefits, food and beverages, Zoology, macromolecular substances, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Biodiversity conservation, chemistry.chemical_compound, Tropical islands, chemistry, Natural food, parasitic diseases, Reproduction, Brodifacoum, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Removing invasive rodents from islands has many ecological and social benefits. However, eradications fail more frequently on tropical than on temperate islands, and causes for these failures are not yet well understood. We addressed two major plausible reasons for eradication failure, testing whether actively reproducing females and pre-weaned pups may not consume bait during an experimental eradication of Rattus exulans on a tropical island (22 ha). We tested four hypotheses, namely that: (1) lactating female rats take longer than non-lactating conspecifics to consume rodent bait, (2) pre-weaned rats orphaned following bait application survive when their mother dies, (3) surviving pre-weaned rats are not exposed to rodent bait and (4) lactating females have different natural diets than non-lactating females. Our experimental eradication was successful, despite conditions that are typically associated with eradication failures: rat density was high (95% CI 65–153 rats/ha), rats were breeding and juveniles of all age-classes were present, land crabs were abundant, bait was only widely available for two nights after bait application (i.e. > 90% of bait disappeared within 36 h; bait was undetectable after 60 h), and alternative foods (e.g. coconut) were abundantly available. We found no evidence to support hypotheses that rat breeding and diet specialisation limit bait uptake because all rats consumed bait. Rat eradication was achieved with a relatively low bait application rate (32 kg/ha; 16 kg/ha per application) and a short (7 day) interval between the two bait applications. We recommend further experimental eradications targeting R. exulans and other invasive Rattus and Mus species on larger islands, but conclude that with comprehensive bait coverage eradications on tropical islands can be successful despite abundant natural food and a high density of reproductively active rats.

Published

2020

39. Treating Cancer as an Invasive Species

Author

James C. Russell, Javad Noorbakhsh, Zi-Ming Zhao, and Jeffrey H. Chuang

Subjects

0303 health sciences, Cancer Research, Extramural, Ecological data, macromolecular substances, Computational biology, Biology, Article, Invasive species, Cancer data, 03 medical and health sciences, 0302 clinical medicine, Oncology, Neoplasms, 030220 oncology & carcinogenesis, Cancer genome, Cancer research, Population Heterogeneity, Animals, Humans, Treatment resistance, Molecular Biology, 030304 developmental biology

Abstract

To cure a patient's cancer is to eradicate invasive cells from the ecosystem of the body. However, the ecologic complexity of this challenge is not well understood. Here we show how results from eradications of invasive mammalian species from islands—one of the few contexts in which invasive species have been regularly cleared—inform new research directions for treating cancer. We first summarize the epidemiologic characteristics of island invader eradications and cancer treatments by analyzing recent datasets from the Database of Invasive Island Species Eradications and The Cancer Genome Atlas, detailing the superior successes of island eradication projects. Next, we compare how genetic and environmental factors impact success in each system. These comparisons illuminate a number of promising cancer research and treatment directions, such as heterogeneity engineering as motivated by gene drives and adaptive therapy; multiscale analyses of how population heterogeneity potentiates treatment resistance; and application of ecological data mining techniques to high-throughput cancer data. We anticipate that interdisciplinary comparisons between tumor progression and invasive species would inspire development of novel paradigms to cure cancer.

Published

2020

40. Flexible foraging strategies in a highly pelagic seabird revealed by seasonal isotopic niche variation

Author

Karen Bourgeois, Jemma R. Welch, Sylvain Dromzée, Graeme A. Taylor, and James C. Russell

Subjects

Ecology, Aquatic Science, Ecology, Evolution, Behavior and Systematics

Published

2022

41. Assessing Two Different Aerial Toxin Treatments for the Management of Invasive Rats

Author

Tess D. R. O’Malley, Margaret C. Stanley, and James C. Russell

Subjects

density, General Veterinary, QL1-991, Rattus rattus, Veterinary medicine, eradication, SF600-1100, rodent, Animal Science and Zoology, invasive species, predator-free, sodium fluoroacetate (1080), spatially explicit capture–recapture, Zoology

Abstract

Aotearoa–New Zealand has embarked on an ambitious goal: to completely eradicate key invasive mammals by 2050. This will require novel tools capable of eliminating pests on a large scale. In New Zealand, large-scale pest suppression is typically carried out using aerial application of the toxin sodium fluoroacetate (1080). However, as currently applied, this tool does not remove all individuals. A novel application method, dubbed ‘1080-to-zero’, aims to change this and reduce the abundances of target pests to zero or near-zero. One such target is black rats (Rattus rattus), an invasive species challenging to control using ground-based methods. This study monitored and compared the response of black rats to a 1080-to-zero operation and a standard suppression 1080 operation. No difference in the efficacy of rat removal was found between the two treatments. The 1080-to-zero operation did not achieve its goal of rat elimination or reduction to near-zero levels, with an estimated 1540 rats surviving across the 2200 ha treatment area. However, 1080 operations can produce variable responses, and the results observed here differ from the only other reported 1080-to-zero operation. We encourage further research into this tool, including how factors such as ecosystem type, mast fruiting and operational timing influence success.

Published

2021

42. Of Mice, Cattle, and Men: A Review of the Eco-Epidemiology of Leptospira borgpetersenii Serovar Ballum

Author

Emilie Vallée, Cord Heuer, Marie Moinet, Jackie Benschop, D. Aberdein, James C. Russell, Julie M. Collins-Emerson, and David A. Wilkinson

Subjects

Serotype, Wildlife, Zoology, Review, emerging infectious diseases, Leptospira, species barrier, medicine, disease ecology, Seroprevalence, General Immunology and Microbiology, Erinaceus, biology, business.industry, Zoonosis, infectious disease reservoirs, Public Health, Environmental and Occupational Health, medicine.disease, biology.organism_classification, wildlife–livestock interface, Leptospirosis, Infectious Diseases, Medicine, Livestock, business, liaison host

Abstract

In New Zealand (NZ), leptospirosis is a mostly occupational zoonosis, with >66% of the recently notified cases being farm or abattoir workers. Livestock species independently maintain Leptospira borgpetersenii serovar Hardjo and L. interrogans serovar Pomona, and both are included in livestock vaccines. The increasing importance in human cases of Ballum, a serovar associated with wildlife, suggests that wildlife may be an overlooked source of infection. Livestock could also act as bridge hosts for humans. Drawing from disease ecology frameworks, we chose five barriers to include in this review based on the hypothesis that cattle act as bridge hosts for Ballum. Using a narrative methodology, we collated published studies pertaining to (a) the distribution and abundance of potential wild maintenance hosts of Ballum, (b) the infection dynamics (prevalence and pathogenesis) in those same hosts, (c) Ballum shedding and survival in the environment, (d) the exposure and competency of cattle as a potential bridge host, and (e) exposure for humans as a target host of Ballum. Mice (Mus musculus), rats (Rattus rattus, R. norvegicus) and hedgehogs (Erinaceus europaeus) were suspected as maintenance hosts of Ballum in NZ in studies conducted in the 1970s–1980s. These introduced species are distributed throughout NZ, and are present on pastures. The role of other wildlife in Ballum (and more broadly Leptospira) transmission remains poorly defined, and has not been thoroughly investigated in NZ. The experimental and natural Ballum infection of cattle suggest a low pathogenicity and the possibility of shedding. The seroprevalence in cattle appears higher in recent serosurveys (3 to 14%) compared with studies from the 1970s (0 to 3%). This review identifies gaps in the knowledge of Ballum, and highlights cattle as a potential spillover host. Further studies are required to ascertain the role that wild and domestic species may play in the eco-epidemiology of Ballum in order to understand its survival in the environment, and to inform control strategies.

Published

2021

43. Consequences of Multispecies Introductions on Island Ecosystems

Author

Christopher N. Kaiser-Bunbury and James C. Russell

Subjects

0106 biological sciences, 0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, Ecology, Single species, Ecosystem, Biology, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, Trophic level

Abstract

The rate of non-native species introductions continues to increase, with directionality from continents to islands. It is no longer single species but entire networks of coevolved and newly interacting continental species that are establishing on islands. The consequences of multispecies introductions on the population dynamics and interactions of native and introduced species will depend on the form of trophic limitation on island ecosystems. Freed from biotic constraints in their native range, species introduced to islands no longer experience top-down limitation, instead becoming limited by and disrupting bottom-up processes that dominate on resource-limited islands. This framing of the ecological and evolutionary relationships among introduced species with one another and their ecosystem has important consequences for conservation. Whereas on continents the focus of conservation is on restoring native apex species and top-down limitation, on islands the focus must instead be on removing introduced animal and plant species to restore bottom-up limitation.

Published

2019

44. Island Biodiversity in the Anthropocene

Author

James C. Russell and Christoph Kueffer

Subjects

0106 biological sciences, 0303 health sciences, Ecology, Biodiversity, Climate change, 010603 evolutionary biology, 01 natural sciences, Novel ecosystem, Invasive species, Environmental studies, 03 medical and health sciences, Anthropocene, Species richness, 030304 developmental biology, General Environmental Science, Global biodiversity

Abstract

Biodiversity on marine islands is characterized by unique biogeographic, phylogenetic and functional characteristics. Islands hold a disproportionate amount of the world's biodiversity, and they have also experienced a disproportionate loss of it. Following human contact, island biodiversity has sustained negative human impacts increasing in rate and magnitude as islands transitioned from primary through secondary to tertiary economies. On islands, habitat transformation and invasive non-native species have historically been the major threats to biodiversity, and although these threats will continue in new forms, new impacts such as human-induced climate change and sea-level rise are emerging. Island biodiversity is changing with some species going extinct, others changing in abundance, non-native species becoming a part of many ecosystems, and humans shaping many ecological processes. Islands thus are microcosms for the emerging biodiversity and socioecological landscapes of the Anthropocene. Islands will require new strategies for the protection and restoration of their biodiversity, including maintaining biological and cultural heritage through regenerative practices, mainstreaming biodiversity in cultural and production landscapes, and engaging with the reality of novel ecosystems.

Published

2019

45. Camera trapping of Grey-faced Petrel (Pterodroma gouldi) breeding burrows reveals interactions with introduced mammals throughout the breeding season

Author

Todd J. Landers, James C. Russell, and Lea M. Stolpmann

Subjects

0106 biological sciences, biology, Ecology, 010604 marine biology & hydrobiology, Petrel, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Breed, Procellariiformes, Seasonal breeder, Animal Science and Zoology, Conservation biology, Ornithology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Grey-faced Petrels (Pterodroma gouldi) are burrow-nesting seabirds endemic to New Zealand. They usually breed on mammal-free offshore islands along the North Island coast. Mechanisms by whi...

Published

2019

46. A 4-Yr Survey of the Range of Ticks and Tick-Borne Pathogens in the Lehigh Valley Region of Eastern Pennsylvania

Author

Julia G Leep-Lazar, Emily N Davidson, Thomas J Yanushefski, Rita A Esposito, Rachel O Heist, Bess L Fleischman, James C. Russell, Samantha L Stuppi, Marten J. Edwards, and Louise M Suppan

Subjects

Nymph, Vector-Borne Diseases, Surveillance, Prevention, Veterinary medicine, animal diseases, 030231 tropical medicine, Borrelia miyamotoi, Tick, Amblyomma americanum, 03 medical and health sciences, Ticks, 0302 clinical medicine, parasitic diseases, Animals, Lyme disease, anaplasmosis, Borrelia burgdorferi, Dermacentor variabilis, 030304 developmental biology, 0303 health sciences, General Veterinary, biology, Ixodes cookei, babesiosis, bacterial infections and mycoses, biology.organism_classification, Anaplasma phagocytophilum, tick, Infectious Diseases, Ixodes scapularis, Insect Science, surveillance, Parasitology, Animal Distribution

Abstract

Questing ticks were surveyed by dragging in forested habitats within the Lehigh Valley region of eastern Pennsylvania for four consecutive summers (2015–2018). A high level of inter-annual variation was found in the density of blacklegged tick nymphs, Ixodes scapularis Say, with a high density of host-seeking nymphs (DON) in summer 2015 and 2017 and a relatively low DON in summer 2016 and 2018. Very few American dog ticks (Dermacentor variabilis Say) and Ixodes cookei Packard were collected. Lone star ticks (Amblyomma americanum L.) and longhorned ticks (Haemaphysalis longicornis Neumann) were not represented among the 6,398 ticks collected. For tick-borne pathogen surveillance, DNA samples from 1,721 I. scapularis nymphs were prepared from specimens collected in summers 2015–2017 and screened using qPCR, high resolution melting analysis, and DNA sequencing when necessary. The overall 3-yr nymphal infection prevalence of Borrelia burgdorferi was 24.8%, Borrelia miyamotoi was 0.3%, Anaplasma phagocytophilum variant-ha was 0.8%, and Babesia microti was 2.8%. Prevalence of coinfection with B. burgdorferi and B. microti as well as B. burgdorferi and A. phagocytophilum variant-ha were significantly higher than would be expected by independent infection. B. burgdorferi nymphal infection prevalence is similar to what other studies have found in the Hudson Valley region of New York, but levels of B. microti and A. phagocytophilum variant-ha nymphal infection prevalence are relatively lower. This study reinforces the urgent need for continued tick and pathogen surveillance in the Lehigh Valley region.

Published

2019

47. Diagnosing and responding to causes of failure to eradicate invasive rodents

Author

James C. Russell, Alexander L. Bond, Ross M. Wanless, and Peter J. Kappes

Subjects

0106 biological sciences, Contingency plan, Ecology, 010604 marine biology & hydrobiology, Best practice, Biosecurity, macromolecular substances, Biology, Multiple-criteria decision analysis, 010603 evolutionary biology, 01 natural sciences, Scientific evidence, Variety (cybernetics), Risk analysis (engineering), Conceptual framework, Operational planning, Ecology, Evolution, Behavior and Systematics

Abstract

Eradicating invasive rodents from islands is a common and powerful tool for conserving and restoring island ecosystems and populations. However, a variety of practical and ecological factors make rodent eradications susceptible to several different types of failure. If an eradication operation is not successful, we are faced with many difficult decisions on how best to proceed, particularly whether to continue actions or to wait before attempting eradication again. We can pro-actively prepare for the possibility of failure by developing failure response plans during the operational planning stages. A well-developed failure response plan includes data collection processes necessary to identify correctly the type of failure: (1) an incomplete eradication effort, (2) eradication effort complete, but individuals survived, or (3) rapid recolonization resulting from a breach of biosecurity measures. Data are also needed to meet pre-determined criteria to inform the decision when to reattempt eradication efforts, should an eradication fail. We provide a general conceptual framework for implementing failure response plans as a means of focusing limited conservation resources by expediently identifying the type of failure, reducing monitoring time-lines to determine if an eradication failed, identifying targets for when follow-up eradication efforts will be most successful, and if appropriate, modifying and updating biosecurity measures. Adopting this approach to pre-empt rodent eradication failures allows the island restoration community to maximize learning, base decision criteria on scientific evidence, and create a transparent decision-making process, thereby improving future eradication efforts.

Published

2019

48. Conserving New Zealand’s native fauna: a review of tools being developed for the Predator Free 2050 programme

Author

Keith Broome, John E. Dowding, Grant J. Ryan, Elaine C. Murphy, and James C. Russell

Subjects

0106 biological sciences, biology, Emerging technologies, Fauna, Ecology (disciplines), Gene drive, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Threatened species, Brushtail possum, Fundamental change, Business, Predator, Environmental planning

Abstract

The endemic fauna of New Zealand evolved in the absence of mammalian predators and the introduction of the latter has been devastating. There have been numerous avian extinctions and 80% of the extant native avian taxa are currently threatened or at risk of extinction. Declines continue, and a fundamental change in predator management is required. In 2016 came the announcement of the ambitious Predator Free 2050 (PF 2050) programme, which aims to eradicate rats, mustelids, and Brushtail Possums from New Zealand by 2050. This paper reviews some of the many techniques being discussed or developed to implement the programme. Existing techniques are being refined and new tools are being developed. Research on new toxins, including those with potentially higher species specificity, is under way, and novel baits and toxin-delivery devices are being developed. Existing trap designs are being refined, and new self-resetting traps capable of multiple kills have been developed. Research is also under way on new lures and repellents. Eradications may be achieved in stages, and barriers (both natural and artificial) will be needed to protect areas already cleared. Current techniques will probably be inadequate to effect nationwide eradications, and new tools (possibly based on genetic technologies) will probably be required. Regulatory hurdles will need to be overcome, and community consultation and support (social licence) will be required throughout the programme. The use of some new technologies may be contentious, and not every new idea will necessarily be adopted. Technical, social, and organisational challenges exist, and national and international collaboration will be required for PF 2050 to succeed.

Published

2019

49. See how they run: increased ranging behavior counters potential Allee effects in experimentally introduced house mice on an island

Author

James C. Russell, Elaine C. Murphy, Jwb MacKay, M. N. Clout, and Mark E. Hauber

Subjects

0106 biological sciences, education.field_of_study, Ecology, biology, 010604 marine biology & hydrobiology, Population, Zoology, Introduced species, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Population density, House mouse, symbols.namesake, symbols, Seasonal breeder, Biological dispersal, House mice, education, Ecology, Evolution, Behavior and Systematics, Allee effect

Abstract

Whether the behaviors of individuals at low population densities differ from those at higher densities is critically informative for predictions of theoretical and experimental ecology, as well as for the conservation management of endangered or introduced species. The globally widespread house mouse Mus musculus is a frequently invasive species; detailed analyses of its low-density behavior will allow for better understanding of population dynamics at early stages of invasions and for generating clearer designs of timely management interventions. Opposite-sex pairs of house mice were released in a small number of replicates at opposite ends of a small, 6 ha island in New Zealand, that had been made experimentally rodent-free, to investigate spatial distributions and ranging behaviors at very low densities by simulating a new invasion of the island with each release trial. Successfully introduced mice (n = 15) of both sexes had twofold greater nightly movements, and tenfold larger range sizes, relative to mice trapped and tracked on the same island prior to eradication. This allowed new arrivals to rapidly and reliably overlap with the range of the opposite sex on the island, especially during the breeding season, suggesting that the driver behind increased ranging was mate searching. Despite the study’s small total sample size, the dramatically increased ranging behaviors exhibited by new arrivals on a mouse-free island imply that this species may avoid potential Allee effects through success in mate searching even at low density. Such behavioral shifts in ranging could contribute to the pervasive success of house mice in founding invasive populations even at extremely low initial densities.

Published

2019

50. Measuring rat relative abundance using camera traps and digital strike counters for Goodnature A24 self-resetting traps

Author

Markus Gronwald and James C. Russell

Subjects

Ecology, Environmental science, Atmospheric sciences, Relative species abundance, Ecology, Evolution, Behavior and Systematics

Published

2021