Your search keyword '"Dickman, C.R."' showing total 111 results

1. Compilation and traits of Australian bird species killed by cats

Author

Woinarski, J.C.Z., Woolley, L.A., Garnett, S.T., Legge, S.M., Murphy, B.P., Lawes, M.J., Comer, S., Dickman, C.R., Doherty, T.S., Edwards, G., Nankivill, A., Palmer, R., and Paton, D.

Published

2017

2. How many birds are killed by cats in Australia?

Author

Woinarski, J.C.Z., Murphy, B.P., Legge, S.M., Garnett, S.T., Lawes, M.J., Comer, S., Dickman, C.R., Doherty, T.S., Edwards, G., Nankivell, A., Paton, D., Palmer, R., and Woolley, L.A.

Published

2017

3. Enumerating a continental-scale threat: How many feral cats are in Australia?

Author

Legge, S., Murphy, B.P., McGregor, H., Woinarski, J.C.Z., Augusteyn, J., Ballard, G., Baseler, M., Buckmaster, T., Dickman, C.R., Doherty, T., Edwards, G., Eyre, T., Fancourt, B.A., Ferguson, D., Forsyth, D.M., Geary, W.L., Gentle, M., Gillespie, G., Greenwood, L., Hohnen, R., Hume, S., Johnson, C.N., Maxwell, M., McDonald, P.J., Morris, K., Moseby, K., Newsome, T., Nimmo, D., Paltridge, R., Ramsey, D., Read, J., Rendall, A., Rich, M., Ritchie, E., Rowland, J., Short, J., Stokeld, D., Sutherland, D.R., Wayne, A.F., Woodford, L., and Zewe, F.

Published

2017

4. Data package for NutNet project: Compositional variation in grassland plant communities (60 sites, 2007-2020) ver 1

Author

Bakker, J.D., Price, J.N., Henning, J.A., Batzer, E.E., Ohlert, T.J., Wainwright, C.E., Adler, P.B., Alberti, J., Arnillas, C.A., Biederman, L.A., Borer, E.T., Brudvig, L.A., Buckley, Y.M., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Catford, J.A., Chen, Q., Crawley, M.J., Daleo, P., Dickman, C.R., Donohue, I., DuPre, M.E., Ebeling, A., Eisenhauer, N., Fay, P.A., Gruner, D.S., Haider, S., Hautier, Y., Jentsch, A., Kirkman, K., Knops, J.M.H., Lannes, L.S., MacDougall, A.S., McCulley, R.L., Mitchell, R.M., Moore, J.L., Morgan, J.W., Mortensen, B., Venterink, H.O., Peri, P.L., Power, S.A., Prober, S.M., Roscher, Christiane, Sankaran, M., Seabloom, E.W., Smith, M.D., Stevens, C., Sullivan, L.L., Tedder, M., Veen, G.F.C., Virtanen, R., Wardle, G.M., Bakker, J.D., Price, J.N., Henning, J.A., Batzer, E.E., Ohlert, T.J., Wainwright, C.E., Adler, P.B., Alberti, J., Arnillas, C.A., Biederman, L.A., Borer, E.T., Brudvig, L.A., Buckley, Y.M., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Catford, J.A., Chen, Q., Crawley, M.J., Daleo, P., Dickman, C.R., Donohue, I., DuPre, M.E., Ebeling, A., Eisenhauer, N., Fay, P.A., Gruner, D.S., Haider, S., Hautier, Y., Jentsch, A., Kirkman, K., Knops, J.M.H., Lannes, L.S., MacDougall, A.S., McCulley, R.L., Mitchell, R.M., Moore, J.L., Morgan, J.W., Mortensen, B., Venterink, H.O., Peri, P.L., Power, S.A., Prober, S.M., Roscher, Christiane, Sankaran, M., Seabloom, E.W., Smith, M.D., Stevens, C., Sullivan, L.L., Tedder, M., Veen, G.F.C., Virtanen, R., and Wardle, G.M.

Abstract

Human activities are altering ecological communities around the globe. Understanding the implications of these changes requires that we consider the composition of those communities. However, composition can be summarized by many metrics which in turn are influenced by different ecological processes. For example, incidence-based metrics strongly reflect species gains or losses, while abundance-based metrics are minimally affected by changes in the abundance of small or uncommon species. Furthermore, metrics might be correlated with different predictors. We used a globally distributed experiment to examine variation in species composition within 60 grasslands on six continents. Each site had an identical experimental and sampling design: 24 plots × 4 years. We expressed compositional variation within each site—not across sites—using abundance- and incidence-based metrics of the magnitude of dissimilarity (Bray–Curtis and Sorensen, respectively), abundance- and incidence-based measures of the relative importance of replacement (balanced variation and species turnover, respectively), and species richness at two scales (per plot-year [alpha] and per site [gamma]). Average compositional variation among all plot-years at a site was high and similar to spatial variation among plots in the pretreatment year, but lower among years in untreated plots. For both types of metrics, most variation was due to replacement rather than nestedness. Differences among sites in overall within-site compositional variation were related to several predictors. Environmental heterogeneity (expressed as the CV of total aboveground plant biomass in unfertilized plots of the site) was an important predictor for most metrics. Biomass production was a predictor of species turnover and of alpha diversity but not of other metrics. Continentality (measured as annual temperature range) was a strong predictor of Sorensen dissimilarity. Metrics of compositional variation are moderately correlated: knowin

Published

2023

5. Compositional variation in grassland plant communities

Author

Bakker, J.D., Price, J.N., Henning, J.A., Batzer, E.E., Ohlert, T.J., Wainwright, C.E., Adler, P.B., Alberti, J., Arnillas, C.A., Biederman, L.A., Borer, E.T., Brudvig, L.A., Buckley, Y.M., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Catford, J.A., Chen, Q., Crawley, M.J., Daleo, P., Dickman, C.R., Donohue, I., DuPre, M.E., Ebeling, A., Eisenhauer, N., Fay, P.A., Gruner, D.S., Haider, S., Hautier, Y., Jentsch, A., Kirkman, K., Knops, J.M.H., Lannes, L.S., MacDougall, A.S., McCulley, R.L., Mitchell, R.M., Moore, J.L., Morgan, J.W., Mortensen, B., Venterink, H.O., Peri, P.L., Power, S.A., Prober, S.M., Roscher, Christiane, Sankaran, M., Seabloom, E.W., Smith, M.D., Stevens, C., Sullivan, L.L., Tedder, M., Veen, G.F.C., Virtanen, R., Wardle, G.M., Bakker, J.D., Price, J.N., Henning, J.A., Batzer, E.E., Ohlert, T.J., Wainwright, C.E., Adler, P.B., Alberti, J., Arnillas, C.A., Biederman, L.A., Borer, E.T., Brudvig, L.A., Buckley, Y.M., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Catford, J.A., Chen, Q., Crawley, M.J., Daleo, P., Dickman, C.R., Donohue, I., DuPre, M.E., Ebeling, A., Eisenhauer, N., Fay, P.A., Gruner, D.S., Haider, S., Hautier, Y., Jentsch, A., Kirkman, K., Knops, J.M.H., Lannes, L.S., MacDougall, A.S., McCulley, R.L., Mitchell, R.M., Moore, J.L., Morgan, J.W., Mortensen, B., Venterink, H.O., Peri, P.L., Power, S.A., Prober, S.M., Roscher, Christiane, Sankaran, M., Seabloom, E.W., Smith, M.D., Stevens, C., Sullivan, L.L., Tedder, M., Veen, G.F.C., Virtanen, R., and Wardle, G.M.

Abstract

Human activities are altering ecological communities around the globe. Understanding the implications of these changes requires that we consider the composition of those communities. However, composition can be summarized by many metrics which in turn are influenced by different ecological processes. For example, incidence-based metrics strongly reflect species gains or losses, while abundance-based metrics are minimally affected by changes in the abundance of small or uncommon species. Furthermore, metrics might be correlated with different predictors. We used a globally distributed experiment to examine variation in species composition within 60 grasslands on six continents. Each site had an identical experimental and sampling design: 24 plots × 4 years. We expressed compositional variation within each site—not across sites—using abundance- and incidence-based metrics of the magnitude of dissimilarity (Bray–Curtis and Sorensen, respectively), abundance- and incidence-based measures of the relative importance of replacement (balanced variation and species turnover, respectively), and species richness at two scales (per plot-year [alpha] and per site [gamma]). Average compositional variation among all plot-years at a site was high and similar to spatial variation among plots in the pretreatment year, but lower among years in untreated plots. For both types of metrics, most variation was due to replacement rather than nestedness. Differences among sites in overall within-site compositional variation were related to several predictors. Environmental heterogeneity (expressed as the CV of total aboveground plant biomass in unfertilized plots of the site) was an important predictor for most metrics. Biomass production was a predictor of species turnover and of alpha diversity but not of other metrics. Continentality (measured as annual temperature range) was a strong predictor of Sorensen dissimilarity. Metrics of compositional variation are moderately correlated: knowin

Published

2023

6. Counting the bodies: Estimating the numbers and spatial variation of Australian reptiles, birds and mammals killed by two invasive mesopredators

Author

Stobo‐Wilson, A.M., Murphy, B.P., Legge, S.M., Caceres‐Escobar, H., Chapple, D.G., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Garnett, S.T., Gentle, M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J‐M, Suarez‐Castro, A.F., Thompson, E., Tulloch, A., Turpin, J.M., Woinarski, J.C.Z., Brito, J., Stobo‐Wilson, A.M., Murphy, B.P., Legge, S.M., Caceres‐Escobar, H., Chapple, D.G., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Garnett, S.T., Gentle, M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J‐M, Suarez‐Castro, A.F., Thompson, E., Tulloch, A., Turpin, J.M., Woinarski, J.C.Z., and Brito, J.

Abstract

Aim Introduced predators negatively impact biodiversity globally, with insular fauna often most severely affected. Here, we assess spatial variation in the number of terrestrial vertebrates (excluding amphibians) killed by two mammalian mesopredators introduced to Australia, the red fox (Vulpes vulpes) and feral cat (Felis catus). We aim to identify prey groups that suffer especially high rates of predation, and regions where losses to foxes and/or cats are most substantial. Location Australia. Methods We draw information on the spatial variation in tallies of reptiles, birds and mammals killed by cats in Australia from published studies. We derive tallies for fox predation by (i) modelling continental-scale spatial variation in fox density, (ii) modelling spatial variation in the frequency of occurrence of prey groups in fox diet, (iii) analysing the number of prey individuals within dietary samples and (iv) discounting animals taken as carrion. We derive point estimates of the numbers of individuals killed annually by foxes and by cats and map spatial variation in these tallies. Results Foxes kill more reptiles, birds and mammals (peaking at 1071 km−2 year−1) than cats (55 km−2 year−1) across most of the unmodified temperate and forested areas of mainland Australia, reflecting the generally higher density of foxes than cats in these environments. However, across most of the continent – mainly the arid central and tropical northern regions (and on most Australian islands) – cats kill more animals than foxes. We estimate that foxes and cats together kill 697 million reptiles annually in Australia, 510 million birds and 1435 million mammals. Main conclusions This continental-scale analysis demonstrates that predation by two introduced species takes a substantial and ongoing toll on Australian reptiles, birds and mammals. Continuing population declines and potential extinctions of some of these species threatens to further compound Australia's poor contemporary conser

Published

2022

7. Distinctive diets of eutherian predators in Australia

Author

Fleming, P.A., Stobo-Wilson, A.M., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.J.S., Newsome, T.M., Palmer, R., Thompson, J.A., Woinarski, J.C.Z., Fleming, P.A., Stobo-Wilson, A.M., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.J.S., Newsome, T.M., Palmer, R., Thompson, J.A., and Woinarski, J.C.Z.

Abstract

Introduction of the domestic cat and red fox has devastated Australian native fauna. We synthesized Australian diet analyses to identify traits of prey species in cat, fox and dingo diets, which prey were more frequent or distinctive to the diet of each predator, and quantified dietary overlap. Nearly half (45%) of all Australian terrestrial mammal, bird and reptile species occurred in the diets of one or more predators. Cat and dingo diets overlapped least (0.64 ± 0.27, n = 24 location/time points) and cat diet changed little over 55 years of study. Cats were more likely to have eaten birds, reptiles and small mammals than foxes or dingoes. Dingo diet remained constant over 53 years and constituted the largest mammal, bird and reptile prey species, including more macropods/potoroids, wombats, monotremes and bandicoots/bilbies than cats or foxes. Fox diet had greater overlap with both cats (0.79 ± 0.20, n = 37) and dingoes (0.73 ± 0.21, n = 42), fewer distinctive items (plant material, possums/gliders) and significant spatial and temporal heterogeneity over 69 years, suggesting the opportunity for prey switching (especially of mammal prey) to mitigate competition. Our study reinforced concerns about mesopredator impacts upon scarce/threatened species and the need to control foxes and cats for fauna conservation. However, extensive dietary overlap and opportunism, as well as low incidence of mesopredators in dingo diets, precluded resolution of the debate about possible dingo suppression of foxes and cats.

Published

2022

8. Evolutionary history of grazing and resources determine herbivore exclusion effects on plant diversity

Author

Price, J.N., Sitters, J., Ohlert, T., Tognetti, P.M., Brown, C.S., Seabloom, E.W., Borer, E.T., Prober, S.M., Bakker, E.S., MacDougall, A.S., Yahdjian, L., Gruner, D.S., Olde Venterink, H., Barrio, I.C., Graff, P., Bagchi, S., Arnillas, C.A., Bakker, J.D., Blumenthal, D.M., Boughton, E.H., Brudvig, L.A., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Dickman, C.R., Donohue, I., Gregory, S., Hautier, Y., Jónsdóttir, I.S., Lannes, L.S., McCulley, R.L., Moore, J.L., Power, S.A., Risch, A.C., Schutz, M., Standish, R., Stevens, C.J., Veen, G.F., Virtanen, R., Wardle, G.M., Price, J.N., Sitters, J., Ohlert, T., Tognetti, P.M., Brown, C.S., Seabloom, E.W., Borer, E.T., Prober, S.M., Bakker, E.S., MacDougall, A.S., Yahdjian, L., Gruner, D.S., Olde Venterink, H., Barrio, I.C., Graff, P., Bagchi, S., Arnillas, C.A., Bakker, J.D., Blumenthal, D.M., Boughton, E.H., Brudvig, L.A., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Dickman, C.R., Donohue, I., Gregory, S., Hautier, Y., Jónsdóttir, I.S., Lannes, L.S., McCulley, R.L., Moore, J.L., Power, S.A., Risch, A.C., Schutz, M., Standish, R., Stevens, C.J., Veen, G.F., Virtanen, R., and Wardle, G.M.

Abstract

Ecological models predict that the effects of mammalian herbivore exclusion on plant diversity depend on resource availability and plant exposure to ungulate grazing over evolutionary time. Using an experiment replicated in 57 grasslands on six continents, with contrasting evolutionary history of grazing, we tested how resources (mean annual precipitation and soil nutrients) determine herbivore exclusion effects on plant diversity, richness and evenness. Here we show that at sites with a long history of ungulate grazing, herbivore exclusion reduced plant diversity by reducing both richness and evenness and the responses of richness and diversity to herbivore exclusion decreased with mean annual precipitation. At sites with a short history of grazing, the effects of herbivore exclusion were not related to precipitation but differed for native and exotic plant richness. Thus, plant species’ evolutionary history of grazing continues to shape the response of the world’s grasslands to changing mammalian herbivory.

Published

2022

9. A science-based policy for managing free-roaming cats

Author

Lepczyk, C.A., Duffy, D.C., Bird, D.M., Calver, M., Cherkassky, D., Cherkassky, L., Dickman, C.R., Hunter, D., Jessup, D., Longcore, T., Loss, S.R., Loyd, K.A.T., Marra, P.P., Marzluff, J.M., Noss, R.F., Simberloff, D., Sizemore, G.C., Temple, S.A., van Heezik, Y., Lepczyk, C.A., Duffy, D.C., Bird, D.M., Calver, M., Cherkassky, D., Cherkassky, L., Dickman, C.R., Hunter, D., Jessup, D., Longcore, T., Loss, S.R., Loyd, K.A.T., Marra, P.P., Marzluff, J.M., Noss, R.F., Simberloff, D., Sizemore, G.C., Temple, S.A., and van Heezik, Y.

Abstract

Free-roaming domestic cats (i.e., cats that are owned or unowned and are considered ‘at large’) are globally distributed non-native species that have marked impacts on biodiversity and human health. Despite clear scientific evidence of these impacts, free-roaming cats are either unmanaged or managed using scientifically unsupported and ineffective approaches (e.g., trap-neuter-release [TNR]) in many jurisdictions around the world. A critical first initiative for effective, science-driven management of cats must be broader political and legislative recognition of free-roaming cats as a non-native, invasive species. Designating cats as invasive is important for developing and implementing science-based management plans, which should include efforts to prevent cats from becoming free-roaming, policies focused on responsible pet ownership and banning outdoor cat feeding, and better enforcement of existing laws. Using a science-based approach is necessary for responding effectively to the politically charged and increasingly urgent issue of managing free-roaming cat populations.

Published

2022

10. Linking changes in species composition and biomass in a globally distributed grassland experiment

Author

Ladouceur, Emma, Blowes, S.A., Chase, J.M., Clark, Adam Thomas, Garbowski, Magda, Alberti, J., Arnillas, C.A., Bakker, J.D., Barrio, I.C., Bharath, S., Borer, E.T., Brudvig, L.A., Cadotte, M.W., Chen, Q., Collins, S.L., Dickman, C.R., Donohue, I., Du, G., Ebeling, A., Eisenhauer, N., Fay, P.A., Hagenah, N., Hautier, Y., Jentsch, A., Jónsdóttir, I.S., Komatsu, K., MacDougall, A., Martina, J.P., Moore, J.L., Morgan, J.W., Peri, P.L., Power, S.A., Ren, Z., Risch, A.C., Roscher, Christiane, Schuchardt, M.A., Seabloom, E.W., Stevens, C.J., Veen, G.F.C., Virtanen, R., Wardle, G.M., Wilfahrt, P.A., Harpole, William Stanley, Ladouceur, Emma, Blowes, S.A., Chase, J.M., Clark, Adam Thomas, Garbowski, Magda, Alberti, J., Arnillas, C.A., Bakker, J.D., Barrio, I.C., Bharath, S., Borer, E.T., Brudvig, L.A., Cadotte, M.W., Chen, Q., Collins, S.L., Dickman, C.R., Donohue, I., Du, G., Ebeling, A., Eisenhauer, N., Fay, P.A., Hagenah, N., Hautier, Y., Jentsch, A., Jónsdóttir, I.S., Komatsu, K., MacDougall, A., Martina, J.P., Moore, J.L., Morgan, J.W., Peri, P.L., Power, S.A., Ren, Z., Risch, A.C., Roscher, Christiane, Schuchardt, M.A., Seabloom, E.W., Stevens, C.J., Veen, G.F.C., Virtanen, R., Wardle, G.M., Wilfahrt, P.A., and Harpole, William Stanley

Abstract

Global change drivers, such as anthropogenic nutrient inputs, are increasing globally. Nutrient deposition simultaneously alters plant biodiversity, species composition and ecosystem processes like aboveground biomass production. These changes are underpinned by species extinction, colonisation and shifting relative abundance. Here, we use the Price equation to quantify and link the contributions of species that are lost, gained or that persist to change in aboveground biomass in 59 experimental grassland sites. Under ambient (control) conditions, compositional and biomass turnover was high, and losses (i.e. local extinctions) were balanced by gains (i.e. colonisation). Under fertilisation, the decline in species richness resulted from increased species loss and decreases in species gained. Biomass increase under fertilisation resulted mostly from species that persist and to a lesser extent from species gained. Drivers of ecological change can interact relatively independently with diversity, composition and ecosystem processes and functions such as aboveground biomass due to the individual contributions of species lost, gained or persisting.

Published

2022

11. The conservation impacts of ecological disturbance: Time-bound estimates of population loss and recovery for fauna affected by the 2019–2020 Australian megafires

Author

Legge, S., Rumpff, L., Woinarski, J.C.Z., Whiterod, N.S., Ward, M., Southwell, D.G., Scheele, B.C., Nimmo, D.G., Lintermans, M., Geyle, H.M., Garnett, S.T., Hayward-Brown, B., Ensbey, M., Ehmke, G., Ahyong, S.T., Blackmore, C.J., Bower, D.S., Brizuela-Torres, Diego, Burbidge, A.H., Burns, P.A., Butler, G., Catullo, R., Chapple, D.G., Dickman, C.R., Doyle, K.E., Ferris, J., Fisher, D., Gallagher, R., Gillespie, G.R., Greenlees, M.J., Hohnen, R., Hoskin, C.J., Hunter, D., Jolly, C., Kennard, M., King, A., Kuchinke, D., Law, B., Lawler, I., Lawler, S., Loyn, R., Lunney, D., Lyon, J., MacHunter, J., Mahony, M., Mahony, S., McCormack, R.B., Melville, J., Menkhorst, P., Michael, D., Mitchell, M., Mulder, E., Newell, D., Pearce, L., Raadik, T.A., Rowley, J.J.L., Sitters, H., Spencer, R., Valavi, R., West, M., Wilkinson, D.P., Zukowski, S., Legge, S., Rumpff, L., Woinarski, J.C.Z., Whiterod, N.S., Ward, M., Southwell, D.G., Scheele, B.C., Nimmo, D.G., Lintermans, M., Geyle, H.M., Garnett, S.T., Hayward-Brown, B., Ensbey, M., Ehmke, G., Ahyong, S.T., Blackmore, C.J., Bower, D.S., Brizuela-Torres, Diego, Burbidge, A.H., Burns, P.A., Butler, G., Catullo, R., Chapple, D.G., Dickman, C.R., Doyle, K.E., Ferris, J., Fisher, D., Gallagher, R., Gillespie, G.R., Greenlees, M.J., Hohnen, R., Hoskin, C.J., Hunter, D., Jolly, C., Kennard, M., King, A., Kuchinke, D., Law, B., Lawler, I., Lawler, S., Loyn, R., Lunney, D., Lyon, J., MacHunter, J., Mahony, M., Mahony, S., McCormack, R.B., Melville, J., Menkhorst, P., Michael, D., Mitchell, M., Mulder, E., Newell, D., Pearce, L., Raadik, T.A., Rowley, J.J.L., Sitters, H., Spencer, R., Valavi, R., West, M., Wilkinson, D.P., and Zukowski, S.

Abstract

Aim After environmental disasters, species with large population losses may need urgent protection to prevent extinction and support recovery. Following the 2019–2020 Australian megafires, we estimated population losses and recovery in fire-affected fauna, to inform conservation status assessments and management. Location Temperate and subtropical Australia. Time period 2019–2030 and beyond. Major taxa Australian terrestrial and freshwater vertebrates; one invertebrate group. Methods From > 1,050 fire-affected taxa, we selected 173 whose distributions substantially overlapped the fire extent. We estimated the proportion of each taxon’s distribution affected by fires, using fire severity and aquatic impact mapping, and new distribution mapping. Using expert elicitation informed by evidence of responses to previous wildfires, we estimated local population responses to fires of varying severity. We combined the spatial and elicitation data to estimate overall population loss and recovery trajectories, and thus indicate potential eligibility for listing as threatened, or uplisting, under Australian legislation. Results We estimate that the 2019–2020 Australian megafires caused, or contributed to, population declines that make 70–82 taxa eligible for listing as threatened; and another 21–27 taxa eligible for uplisting. If so-listed, this represents a 22–26% increase in Australian statutory lists of threatened terrestrial and freshwater vertebrates and spiny crayfish, and uplisting for 8–10% of threatened taxa. Such changes would cause an abrupt worsening of underlying trajectories in vertebrates, as measured by Red List Indices. We predict that 54–88% of 173 assessed taxa will not recover to pre-fire population size within 10 years/three generations. Main conclusions We suggest the 2019–2020 Australian megafires have worsened the conservation prospects for many species. Of the 91 taxa recommended for listing/uplisting consideration, 84 a

Published

2022

12. A fresh framework for the ecology of arid Australia

Author

Morton, S.R., Stafford Smith, D.M., Dickman, C.R., Dunkerley, D.L., Friedel, M.H., McAllister, R.R.J., Reid, J.R.W., Roshier, D.A., Smith, M.A., Walsh, F.J., Wardle, G.M., Watson, I.W., and Westoby, M.

Published

2011

13. Conservation status of the world's skinks (Scincidae): Taxonomic and geographic patterns in extinction risk

Author

Chapple, D.G. Roll, U. Böhm, M. Aguilar, R. Amey, A.P. Austin, C.C. Baling, M. Barley, A.J. Bates, M.F. Bauer, A.M. Blackburn, D.G. Bowles, P. Brown, R.M. Chandramouli, S.R. Chirio, L. Cogger, H. Colli, G.R. Conradie, W. Couper, P.J. Cowan, M.A. Craig, M.D. Das, I. Datta-Roy, A. Dickman, C.R. Ellis, R.J. Fenner, A.L. Ford, S. Ganesh, S.R. Gardner, M.G. Geissler, P. Gillespie, G.R. Glaw, F. Greenlees, M.J. Griffith, O.W. Grismer, L.L. Haines, M.L. Harris, D.J. Hedges, S.B. Hitchmough, R.A. Hoskin, C.J. Hutchinson, M.N. Ineich, I. Janssen, J. Johnston, G.R. Karin, B.R. Keogh, J.S. Kraus, F. LeBreton, M. Lymberakis, P. Masroor, R. McDonald, P.J. Mecke, S. Melville, J. Melzer, S. Michael, D.R. Miralles, A. Mitchell, N.J. Nelson, N.J. Nguyen, T.Q. de Campos Nogueira, C. Ota, H. Pafilis, P. Pauwels, O.S.G. Perera, A. Pincheira-Donoso, D. Reed, R.N. Ribeiro-Júnior, M.A. Riley, J.L. Rocha, S. Rutherford, P.L. Sadlier, R.A. Shacham, B. Shea, G.M. Shine, R. Slavenko, A. Stow, A. Sumner, J. Tallowin, O.J.S. Teale, R. Torres-Carvajal, O. Trape, J.-F. Uetz, P. Ukuwela, K.D.B. Valentine, L. Van Dyke, J.U. van Winkel, D. Vasconcelos, R. Vences, M. Wagner, P. Wapstra, E. While, G.M. Whiting, M.J. Whittington, C.M. Wilson, S. Ziegler, T. Tingley, R. Meiri, S.

Abstract

Our knowledge of the conservation status of reptiles, the most diverse class of terrestrial vertebrates, has improved dramatically over the past decade, but still lags behind that of the other tetrapod groups. Here, we conduct the first comprehensive evaluation (~92% of the world's ~1714 described species) of the conservation status of skinks (Scincidae), a speciose reptile family with a worldwide distribution. Using International Union for Conservation of Nature (IUCN) criteria, we report that ~20% of species are threatened with extinction, and nine species are Extinct or Extinct in the Wild. The highest levels of threat are evident in Madagascar and the Neotropics, and in the subfamilies Mabuyinae, Eugongylinae and Scincinae. The vast majority of threatened skink species were listed based primarily on their small geographic ranges (Criterion B, 83%; Criterion D2, 13%). Although the population trend of 42% of species was stable, 14% have declining populations. The key threats to skinks are habitat loss due to agriculture, invasive species, and biological resource use (e.g., hunting, timber harvesting). The distributions of 61% of species do not overlap with protected areas. Despite our improved knowledge of the conservation status of the world's skinks, 8% of species remain to be assessed, and 14% are listed as Data Deficient. The conservation status of almost a quarter of the world's skink species thus remains unknown. We use our updated knowledge of the conservation status of the group to develop and outline the priorities for the conservation assessment and management of the world's skink species. © 2021 Elsevier Ltd

Published

2021

14. Sharing meals: Predation on Australian mammals by the introduced European red fox compounds and complements predation by feral cats

Author

Stobo-Wilson, A.M., Murphy, B.P., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Gentle, M.N., Legge, S.M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J-M, Thompson, E., Turpin, J., Woinarski, J.C.Z., Stobo-Wilson, A.M., Murphy, B.P., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Gentle, M.N., Legge, S.M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J-M, Thompson, E., Turpin, J., and Woinarski, J.C.Z.

Abstract

Two introduced carnivores, the European red fox Vulpes vulpes and domestic cat Felis catus, have had, and continue to have, major impacts on wildlife, particularly mammals, across Australia. Based mainly on the contents of almost 50,000 fox dietary samples, we provide the first comprehensive inventory of Australian mammal species known to be consumed by foxes, and compare this with a similar assessment for cats. We recorded consumption by foxes of 114 species of Australian land mammal (40% of extant species), fewer than consumed by cats (173 species). Foxes are known to consume 42 threatened mammal species (50% of Australia's threatened land mammals and 66% of those within the fox's Australian range). Reflecting the importance of mammals in their diet, foxes are known to consume a far higher proportion of Australian mammal species (40%) than of Australian birds (24%) and reptiles (16%). Both foxes and cats were most likely to consume medium-sized mammals, with the likelihood of predation by foxes peaking for mammals of ca. 280 g and by cats at ca. 130 g. For non-flying mammals, threatened species had a higher relative likelihood of predation by foxes than non-threatened species. Using trait-based modelling, we estimate that many now-extinct Australian mammal species had very high likelihoods of predation by foxes and cats, although we note that for some of these species, extinction likely pre-dated the arrival of foxes. These two predators continue to have compounding and complementary impacts on Australian mammals. Targeted and integrated management of foxes and cats is required to help maintain and recover the Australian mammal fauna.

Published

2021

15. Reptiles as food: Predation of Australian reptiles by introduced red foxes compounds and complements predation by cats

Author

Stobo-Wilson, A.M., Murphy, B.P., Legge, S.M., Chapple, D.G., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Gentle, M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J-M, Thompson, E., Turpin, J., Woinarski, J.C.Z., Stobo-Wilson, A.M., Murphy, B.P., Legge, S.M., Chapple, D.G., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Gentle, M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J-M, Thompson, E., Turpin, J., and Woinarski, J.C.Z.

Abstract

Context: Invasive species are a major cause of biodiversity loss across much of the world, and a key threat to Australia’s diverse reptile fauna. There has been no previous comprehensive analysis of the potential impact of the introduced European red fox, Vulpes vulpes, on Australian reptiles. Aims: We seek to provide an inventory of all Australian reptile species known to be consumed by the fox, and identify characteristics of squamate species associated with such predation. We also compare these tallies and characteristics with reptile species known to be consumed by the domestic cat, Felis catus, to examine whether predation by these two introduced species is compounded (i.e. affecting much the same set of species) or complementary (affecting different groups of species). Methods: We collated records of Australian reptiles consumed by foxes in Australia, with most records deriving from fox dietary studies (tallying >35 000 samples). We modelled presence or absence of fox predation records against a set of biological and other traits, and population trends, for squamate species. Key results: In total, 108 reptile species (~11% of Australia’s terrestrial reptile fauna) have been recorded as consumed by foxes, fewer than that reported for cats (263 species). Eighty-six species have been reported to be eaten by both predators. More Australian turtle species have been reported as consumed by foxes than by cats, including many that suffer high levels of predation on egg clutches. Twenty threatened reptile species have been reported as consumed by foxes, and 15 by cats. Squamate species consumed by foxes are more likely to be undergoing population decline than those not known to be consumed by foxes. The likelihood of predation by foxes increased with squamate species’ adult body mass, in contrast to the relationship for predation by cats, which peaked at ~217 g. Foxes, but not cats, were also less likely to consume venomous snakes. Conclusions: The two introduced, and

Published

2021

16. Diet of the introduced red fox Vulpes vulpes in Australia: Analysis of temporal and spatial patterns

Author

Fleming, P.A., Crawford, H.M., Stobo‐Wilson, A.M., Dawson, S.J., Dickman, C.R., Dundas, S.J., Gentle, M.N., Newsome, T.M., O’Connor, J., Palmer, R., Riley, J., Ritchie, E.G., Speed, J., Saunders, G., Stuart, J‐M.D., Thompson, E., Turpin, J.M., Woinarski, J.C.Z., Fleming, P.A., Crawford, H.M., Stobo‐Wilson, A.M., Dawson, S.J., Dickman, C.R., Dundas, S.J., Gentle, M.N., Newsome, T.M., O’Connor, J., Palmer, R., Riley, J., Ritchie, E.G., Speed, J., Saunders, G., Stuart, J‐M.D., Thompson, E., Turpin, J.M., and Woinarski, J.C.Z.

Abstract

The red fox Vulpes vulpes is one of the world’s most widespread carnivores. A key to its success has been its broad, opportunistic diet. The fox was introduced to Australia about 150 years ago, and within 30 years of its introduction was already recognised as a threat to livestock and native wildlife. We reviewed 85 fox diet studies (totalling 31693 samples) from throughout the species’ geographic range within Australia. Mammals were a major component of fox diet, being present in 70 ± 19% of samples across n = 160 locations. Invertebrates (38 ± 26% n = 130) and plant material (26 ± 25% n = 123) were also both staple foods and often the dominant food category recorded. Birds (13 ± 11% n = 137) and reptiles (10 ± 15% n = 132) were also commonly reported, while frogs were scarcely represented (1.6 ± 3.6% n = 111) in fox diet studies. Biogeographical differences reveal factors that likely determine prey availability. Diet composition varied with ecosystem, level of vegetation clearing and condition, and climate zone. Sample type (i.e. stomach versus scat samples) also significantly influenced reporting of diet composition. Livestock and frogs were underrepresented in records based on analysis of scats, whereas small mammals (native rodents, dasyurid marsupials, and bats) were more likely to be recorded in studies of scats than in studies of stomach contents. Diet varied seasonally, reflecting activity patterns of prey species and food availability. This synthesis also captures temporal shifts in fox diet over 70 years (1951–2020), as foxes have switched to consuming more native species in the wake of successful broadscale biological control of the invasive European rabbit Oryctolagus cuniculus. Diet analyses, such as those summarised in this review, capture the evidence required to motivate for greater control of foxes in Australia. This synthesis also highlights the importance of integrated pest species management to meet biodiversity conservation outcomes.

Published

2021

17. Conservation status of the world's skinks (Scincidae): Taxonomic and geographic patterns in extinction risk

Author

Chapple, D.G., Roll, U., Bohm, M., Aguilar, R., Amey, A.P., Austin, C.C., Baling, M., Barley, A.J., Bates, M.F., Bauer, A.M., Blackburn, D.G., Bowles, P., Brown, R.M., Chandramouli, S.R., Chirio, L., Cogger, H., Colli, G.R., Conradie, W., Couper, P.J., Cowan, M.A., Craig, M.D., Das, I., Datta-Roy, A., Dickman, C.R., Ellis, R.J., Fenner, A.L., Ford, S., Ganesh, S.R., Gardner, M.G., Geissler, P., Gillespie, G.R., Glaw, F., Greenlees, M.J., Griffith, O.W., Grismer, L.L., Haines, M.L., Harris, D.J., Hedges, S.B., Hitchmough, R.A., Hoskin, C.J., Hutchinson, M.N., Ineich, I., Janssen, J., Johnston, G.R., Karin, B.R., Keogh, J.S., Kraus, F., LeBreton, M., Lymberakis, P., Masroor, R., McDonald, P.J., Mecke, S., Melville, J., Melzer, S., Michael, D.R., Miralles, A., Mitchell, N.J., Nelson, N.J., Nguyen, T.Q., de Campos Nogueira, C., Ota, H., Pafilis, P., Pauwels, O.S.G., Perera, A., Pincheira-Donoso, D., Reed, R.N., Ribeiro-Júnior, M.A., Riley, J.L., Rocha, S., Rutherford, P.L., Sadlier, R.A., Shacham, B., Shea, G.M., Shine, R., Slavenko, A., Stow, A., Sumner, J., Tallowin, O.J.S., Teale, R., Torres-Carvajal, O., Trape, J-F, Uetz, P., Ukuwela, K.D.B., Valentine, L., Van Dyke, J.U., van Winkel, D., Vasconcelos, R., Vences, M., Wagner, P., Wapstra, E., While, G.M., Whiting, M.J., Whittington, C.M., Wilson, S., Ziegler, T., Tingley, R., Meiri, S., Chapple, D.G., Roll, U., Bohm, M., Aguilar, R., Amey, A.P., Austin, C.C., Baling, M., Barley, A.J., Bates, M.F., Bauer, A.M., Blackburn, D.G., Bowles, P., Brown, R.M., Chandramouli, S.R., Chirio, L., Cogger, H., Colli, G.R., Conradie, W., Couper, P.J., Cowan, M.A., Craig, M.D., Das, I., Datta-Roy, A., Dickman, C.R., Ellis, R.J., Fenner, A.L., Ford, S., Ganesh, S.R., Gardner, M.G., Geissler, P., Gillespie, G.R., Glaw, F., Greenlees, M.J., Griffith, O.W., Grismer, L.L., Haines, M.L., Harris, D.J., Hedges, S.B., Hitchmough, R.A., Hoskin, C.J., Hutchinson, M.N., Ineich, I., Janssen, J., Johnston, G.R., Karin, B.R., Keogh, J.S., Kraus, F., LeBreton, M., Lymberakis, P., Masroor, R., McDonald, P.J., Mecke, S., Melville, J., Melzer, S., Michael, D.R., Miralles, A., Mitchell, N.J., Nelson, N.J., Nguyen, T.Q., de Campos Nogueira, C., Ota, H., Pafilis, P., Pauwels, O.S.G., Perera, A., Pincheira-Donoso, D., Reed, R.N., Ribeiro-Júnior, M.A., Riley, J.L., Rocha, S., Rutherford, P.L., Sadlier, R.A., Shacham, B., Shea, G.M., Shine, R., Slavenko, A., Stow, A., Sumner, J., Tallowin, O.J.S., Teale, R., Torres-Carvajal, O., Trape, J-F, Uetz, P., Ukuwela, K.D.B., Valentine, L., Van Dyke, J.U., van Winkel, D., Vasconcelos, R., Vences, M., Wagner, P., Wapstra, E., While, G.M., Whiting, M.J., Whittington, C.M., Wilson, S., Ziegler, T., Tingley, R., and Meiri, S.

Abstract

Our knowledge of the conservation status of reptiles, the most diverse class of terrestrial vertebrates, has improved dramatically over the past decade, but still lags behind that of the other tetrapod groups. Here, we conduct the first comprehensive evaluation (~92% of the world's ~1714 described species) of the conservation status of skinks (Scincidae), a speciose reptile family with a worldwide distribution. Using International Union for Conservation of Nature (IUCN) criteria, we report that ~20% of species are threatened with extinction, and nine species are Extinct or Extinct in the Wild. The highest levels of threat are evident in Madagascar and the Neotropics, and in the subfamilies Mabuyinae, Eugongylinae and Scincinae. The vast majority of threatened skink species were listed based primarily on their small geographic ranges (Criterion B, 83%; Criterion D2, 13%). Although the population trend of 42% of species was stable, 14% have declining populations. The key threats to skinks are habitat loss due to agriculture, invasive species, and biological resource use (e.g., hunting, timber harvesting). The distributions of 61% of species do not overlap with protected areas. Despite our improved knowledge of the conservation status of the world's skinks, 8% of species remain to be assessed, and 14% are listed as Data Deficient. The conservation status of almost a quarter of the world's skink species thus remains unknown. We use our updated knowledge of the conservation status of the group to develop and outline the priorities for the conservation assessment and management of the world's skink species.

Published

2021

18. Compounding and complementary carnivores: Australian bird species eaten by the introduced European red fox Vulpes vulpes and domestic cat Felis catus

Author

Woinarski, J.C.Z., Stobo-Wilson, A.M., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Garnett, S.T., Gentle, M.N., Legge, S.M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J-M, Thompson, E., Turpin, J., Murphy, B.P., Woinarski, J.C.Z., Stobo-Wilson, A.M., Crawford, H.M., Dawson, S.J., Dickman, C.R., Doherty, T.S., Fleming, P.A., Garnett, S.T., Gentle, M.N., Legge, S.M., Newsome, T.M., Palmer, R., Rees, M.W., Ritchie, E.G., Speed, J., Stuart, J-M, Thompson, E., Turpin, J., and Murphy, B.P.

Abstract

Two introduced carnivores, the European red fox Vulpes vulpes and domestic cat Felis catus, have had extensive impacts on Australian biodiversity. In this study, we collate information on consumption of Australian birds by the fox, paralleling a recent study reporting on birds consumed by cats. We found records of consumption by foxes on 128 native bird species (18% of the non-vagrant bird fauna and 25% of those species within the fox’s range), a smaller tally than for cats (343 species, including 297 within the fox’s Australian range, a subset of that of the cat). Most (81%) bird species eaten by foxes are also eaten by cats, suggesting that predation impacts are compounded. As with consumption by cats, birds that nest or forage on the ground are most likely to be consumed by foxes. However, there is also some partitioning, with records of consumption by foxes but not cats for 25 bird species, indicating that impacts of the two predators may also be complementary. Bird species ≥3.4 kg were more likely to be eaten by foxes, and those <3.4 kg by cats. Our compilation provides an inventory and describes characteristics of Australian bird species known to be consumed by foxes, but we acknowledge that records of predation do not imply population-level impacts. Nonetheless, there is sufficient information from other studies to demonstrate that fox predation has significant impacts on the population viability of some Australian birds, especially larger birds, and those that nest or forage on the ground.

Published

2021

19. How many bird and mammal extinctions has recent conservation action prevented?

Author

Bolam, F.C., Mair, L., Angelico, M., Brooks, T.M., Burgman, M., Hermes, C., Hoffmann, M., Martin, R.W., McGowan, P.L.K., Rodrigues, A.S.L., Rondinini, C., Westrip, J.R.S., Wheatley, H., Bedolla-Guzmán, Y., Calzada, J., Child, M.F., Cranswick, P.A., Dickman, C.R., Fessl, B., Fisher, D.O., Garnett, S.T., Groombridge, J.J., Johnson, C.N., Kennerley, R.J., King, S.R.B., Lamoreux, J.F., Lees, A.C., Lens, L., Mahood, S.P., Mallon, D.P., Meijaard, E., Méndez-Sánchez, F., Percequillo, A.R., Regan, T.J., Renjifo, L.M., Rivers, M.C., Roach, N.S., Roxburgh, L., Safford, R.J., Salaman, P., Squires, T., Vázquez-Domínguez, E., Visconti, P., Woinarski, J.C.Z., Young, R.P., Butchart, S.H.M., Bolam, F.C., Mair, L., Angelico, M., Brooks, T.M., Burgman, M., Hermes, C., Hoffmann, M., Martin, R.W., McGowan, P.L.K., Rodrigues, A.S.L., Rondinini, C., Westrip, J.R.S., Wheatley, H., Bedolla-Guzmán, Y., Calzada, J., Child, M.F., Cranswick, P.A., Dickman, C.R., Fessl, B., Fisher, D.O., Garnett, S.T., Groombridge, J.J., Johnson, C.N., Kennerley, R.J., King, S.R.B., Lamoreux, J.F., Lees, A.C., Lens, L., Mahood, S.P., Mallon, D.P., Meijaard, E., Méndez-Sánchez, F., Percequillo, A.R., Regan, T.J., Renjifo, L.M., Rivers, M.C., Roach, N.S., Roxburgh, L., Safford, R.J., Salaman, P., Squires, T., Vázquez-Domínguez, E., Visconti, P., Woinarski, J.C.Z., Young, R.P., and Butchart, S.H.M.

Abstract

Aichi Target 12 of the Convention on Biological Diversity (CBD) contains the aim to ‘prevent extinctions of known threatened species’. To measure the degree to which this was achieved, we used expert elicitation to estimate the number of bird and mammal species whose extinctions were prevented by conservation action in 1993–2020 (the lifetime of the CBD) and 2010–2020 (the timing of Aichi Target 12). We found that conservation action prevented 21–32 bird and 7–16 mammal extinctions since 1993, and 9–18 bird and two to seven mammal extinctions since 2010. Many remain highly threatened and may still become extinct. Considering that 10 bird and five mammal species did go extinct (or are strongly suspected to) since 1993, extinction rates would have been 2.9–4.2 times greater without conservation action. While policy commitments have fostered significant conservation achievements, future biodiversity action needs to be scaled up to avert additional extinctions.

Published

2021

20. The ecology of Lerista labialis (Scincidae) in the Simpson Desert: reproduction and diet

Author

Greenville, A.C. and Dickman, C.R.

Published

2005

21. Predicting effects of predation on conservation of endangered prey

Author

Sinclair, A.R.E., Pech, R.P., Dickman, C.R., Hik, D., Mahon, P., and Newsome, A.E.

Subjects

Endangered species -- Protection and preservation, Predation (Biology) -- Environmental aspects, Predator control -- Environmental aspects, Environmental issues, Zoology and wildlife conservation

Abstract

Evaluation of predator behavior is needed to develop endangered species conservation policies. Criteria should assess per capita prey rates of change according to density, predation magnitude and whether predation is density-dependent or depensatory. Possible responses include habitat manipulation, predator removal and establishing reintroduction thresholds to decrease the vulnerability of the prey.

Published

1998

22. Community versus research-based conservation: what are the paradigms?

Author

Dickman, C.R., primary

Published

2002

23. We need to worry about Bella and Charlie: The impacts of pet cats on Australian wildlife

Author

Legge, S., Woinarski, J.C.Z., Dickman, C.R., Murphy, B.P., Woolley, L-A, Calver, M.C., Legge, S., Woinarski, J.C.Z., Dickman, C.R., Murphy, B.P., Woolley, L-A, and Calver, M.C.

Abstract

Research and management attention on the impacts of the introduced domestic cat (Felis catus) on Australian fauna have focussed mainly on the feral population. Here, we summarise the evidence for impacts of predation by pet cats on Australian wildlife. We collate examples of local wildlife population decline and extirpation as a result, at least in part, of predation by pet cats. We assemble information across 66 studies of predation by pet cats worldwide (including 24 Australian studies) to estimate the predation toll of pet cats in Australia, plus the predation pressure per unit area in residential areas. We compared these estimates to those published for feral cats in Australia. The per capita kill rate of pet cats is 25% that of feral cats. However, pet cats live at much higher densities, so the predation rate of pets per square kilometre in residential areas is 28–52 times larger than predation rates by feral cats in natural environments, and 1.3–2.3 times greater than predation rates per km2 by feral cats living in urban areas. Pet cats kill introduced species more often than do feral cats living in natural environments, but, nonetheless, the toll of native animals killed per square kilometre by pet cats in residential areas is still much higher than the toll per square kilometre by feral cats. There is no evidence that pet cats exert significant control of introduced species. The high predation toll of pet cats in residential areas, the documented examples of declines and extirpations in populations of native species caused by pet cats, and potential pathways for other, indirect effects (e.g. from disease, landscapes of fear, ecological footprints), and the context of extraordinary impacts from feral cats on Australian fauna, together support a default position that pet cat impacts are serious and should be reduced. From a technical perspective, the pet cat impacts can be reduced more effectively and humanely than those of feral cats, while also enhancing pet

Published

2020

24. Microbial processing of plant remains is co‐limited by multiple nutrients in global grasslands

Author

Ochoa‐Hueso, R., Borer, E.T., Seabloom, E.W., Hobbie, S.E., Risch, A.C., Collins, S.L., Alberti, J., Bahamonde, H.A., Brown, C.S., Caldeira, M.C., Daleo, P., Dickman, C.R., Ebeling, A., Eisenhauer, N., Esch, E.H., Eskelinen, A., Fernández, V., Güsewell, S., Gutierrez‐Larruga, B., Hofmockel, K., Laungani, R., Lind, E., López, A., McCulley, R.L., Moore, J.L., Peri, P.L., Power, S.A., Price, J.N., Prober, S.M., Roscher, C., Sarneel, J.M., Schutz, M., Siebert, J., Standish, R.J., Velasco Ayuso, S., Virtanen, R., Wardle, G.M., Wiehl, G., Yahdjian, L., Zamin, T., Ochoa‐Hueso, R., Borer, E.T., Seabloom, E.W., Hobbie, S.E., Risch, A.C., Collins, S.L., Alberti, J., Bahamonde, H.A., Brown, C.S., Caldeira, M.C., Daleo, P., Dickman, C.R., Ebeling, A., Eisenhauer, N., Esch, E.H., Eskelinen, A., Fernández, V., Güsewell, S., Gutierrez‐Larruga, B., Hofmockel, K., Laungani, R., Lind, E., López, A., McCulley, R.L., Moore, J.L., Peri, P.L., Power, S.A., Price, J.N., Prober, S.M., Roscher, C., Sarneel, J.M., Schutz, M., Siebert, J., Standish, R.J., Velasco Ayuso, S., Virtanen, R., Wardle, G.M., Wiehl, G., Yahdjian, L., and Zamin, T.

Abstract

Microbial processing of aggregate‐unprotected organic matter inputs is key for soil fertility, long‐term ecosystem carbon and nutrient sequestration and sustainable agriculture. We investigated the effects of adding multiple nutrients (nitrogen, phosphorus and potassium plus nine essential macro‐ and micro‐nutrients) on decomposition and biochemical transformation of standard plant materials buried in 21 grasslands from four continents. Addition of multiple nutrients weakly but consistently increased decomposition and biochemical transformation of plant remains during the peak‐season, concurrent with changes in microbial exoenzymatic activity. Higher mean annual precipitation and lower mean annual temperature were the main climatic drivers of higher decomposition rates, while biochemical transformation of plant remains was negatively related to temperature of the wettest quarter. Nutrients enhanced decomposition most at cool, high rainfall sites, indicating that in a warmer and drier future fertilized grassland soils will have an even more limited potential for microbial processing of plant remains.

Published

2020

25. Context and trade-offs characterize real-world threat detection systems: A review and comprehensive framework to improve research practice and resolve the translational crisis

Author

Fendt, M., Parsons, M.H., Apfelbach, R., Carthey, A.J.R., Dickman, C.R., Endres, T., Frank, A.S.K., Heinz, D.E., Jones, M.E., Kiyokawa, Y., Kreutzmann, J.C., Roelofs, K., Schneider, M., Sulger, J., Wotjak, C.T., Blumstein, D.T., Fendt, M., Parsons, M.H., Apfelbach, R., Carthey, A.J.R., Dickman, C.R., Endres, T., Frank, A.S.K., Heinz, D.E., Jones, M.E., Kiyokawa, Y., Kreutzmann, J.C., Roelofs, K., Schneider, M., Sulger, J., Wotjak, C.T., and Blumstein, D.T.

Abstract

Contains fulltext : 219339.pdf (Publisher’s version ) (Closed access), A better understanding of context in decision-making - that is, the internal and external conditions that modulate decisions - is required to help bridge the gap between natural behaviors that evolved by natural selection and more arbitrary laboratory models of anxiety and fear. Because anxiety and fear are mechanisms evolved to manage threats from predators and other exigencies, the large behavioral, ecological and evolutionary literature on predation risk is useful for re-framing experimental research on human anxiety-related disorders. We review the trade-offs that are commonly made during antipredator decision-making in wild animals along with the context under which the behavior is performed and measured, and highlight their relevance for focused laboratory models of fear and anxiety. We then develop an integrative mechanistic model of decision-making under risk which, when applied to laboratory and field settings, should improve studies of the biological basis of normal and pathological anxiety and may therefore improve translational outcomes.

Published

2020

26. Nutrients cause grassland biomass to outpace herbivory

Author

Borer, E.T., Harpole, William Stanley, Adler, P.B., Arnillas, C.A., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Campana, S., Dickman, C.R., Dickson, T.L., Donohue, I., Eskelinen, Anu Maria, Firn, J.L., Graff, P., Gruner, D.S., Heckman, R.W., Koltz, A.M., Komatsu, K.J., Lannes, L.S., MacDougall, A.S., Martina, J.P., Moore, J.L., Mortensen, B., Ochoa-Hueso, R., Venterink, H.O., Power, S.A., Price, J.N., Risch, A.C., Sankaran, M., Schütz, M., Sitters, J., Stevens, C.J., Virtanen, R., Wilfahrt, P.A., Seabloom, E.A., Borer, E.T., Harpole, William Stanley, Adler, P.B., Arnillas, C.A., Bugalho, M.N., Cadotte, M.W., Caldeira, M.C., Campana, S., Dickman, C.R., Dickson, T.L., Donohue, I., Eskelinen, Anu Maria, Firn, J.L., Graff, P., Gruner, D.S., Heckman, R.W., Koltz, A.M., Komatsu, K.J., Lannes, L.S., MacDougall, A.S., Martina, J.P., Moore, J.L., Mortensen, B., Ochoa-Hueso, R., Venterink, H.O., Power, S.A., Price, J.N., Risch, A.C., Sankaran, M., Schütz, M., Sitters, J., Stevens, C.J., Virtanen, R., Wilfahrt, P.A., and Seabloom, E.A.

Abstract

Human activities are transforming grassland biomass via changing climate, elemental nutrients, and herbivory. Theory predicts that food-limited herbivores will consume any additional biomass stimulated by nutrient inputs (‘consumer-controlled’). Alternatively, nutrient supply is predicted to increase biomass where herbivores alter community composition or are limited by factors other than food (‘resource-controlled’). Using an experiment replicated in 58 grasslands spanning six continents, we show that nutrient addition and vertebrate herbivore exclusion each caused sustained increases in aboveground live biomass over a decade, but consumer control was weak. However, at sites with high vertebrate grazing intensity or domestic livestock, herbivores consumed the additional fertilization-induced biomass, supporting the consumer-controlled prediction. Herbivores most effectively reduced the additional live biomass at sites with low precipitation or high ambient soil nitrogen. Overall, these experimental results suggest that grassland biomass will outstrip wild herbivore control as human activities increase elemental nutrient supply, with widespread consequences for grazing and fire risk.

Published

2020

27. The responses of small mammals and lizards to post-fire succession and rainfall in arid Australia

Author

Letnic, M, Dickman, C.R, Tischler, M.K, Tamayo, B, and Beh, C.-L

Published

2004

28. Body size-prey size relationships in insectivorous marsupials: tests of three hypotheses

Author

Fisher, D.O. and Dickman, C.R.

Subjects

Marsupialia -- Behavior, Body size -- Research, Predation (Biology) -- Research, Biological sciences, Environmental issues

Abstract

There is a strong positive correlation between the body sizes of dasyurid marsupials and the mean sizes of their invertebrate prey. This study tests three hypotheses proposed to explain this relationship, using 21 species of dasyurids (body mass range: 5-200 g) throughout continental Australia: (1) the maximum prey size that can be physically handled increases with dasyurid size due to the restricted gapes or forces of biting of smaller dasyurids; (2) the prey size that maximizes rate of energy intake varies with dasyurid size, with animals preferentially consuming the most profitable prey; and (3) prey sizes encountered during foraging vary with dasyurid size. Field observations of dasyurids were made at 20 study areas between January 1980 and February 1991. Most dasyurids were live-trapped, weighed, and sexed before being released at the trap site. We then tracked each animal and sampled potential prey in their foraging microhabitats. Dasyurid diets were examined using scat analysis. We measured rate of energy intake for captive dasyurids by offering different-sized cockroaches, measuring processing times, and calculating the energy content of cockroaches used. The first hypothesis was rejected. Both large and small dasyurids could grasp and pierce the largest prey offered in the laboratory, which were similar in size to the largest prey potentially available in the field. The second and third hypotheses were supported. Individuals of the smaller species maximized rates of energy gain in captivity by feeding preferentially on small prey, and their foraging trails in the field traversed microhabitats where mean potential prey size encountered was small (2-4 mm long). In contrast, larger dasyurids preferred large prey, obtained a greater rate of energy gain from them, and foraged in microhabitats where prey lengths averaged greater than or equal to 6 mm. There was a tendency for larger dasyurids to include progressively larger prey in their diets than were available, on average, along their foraging trails. This may reflect increasing selectivity for larger prey. However, it may also reflect a reduced susceptibility to predation or increased competitive ability for large dasyurids in productive microhabitats, and hence reflect a size-based advantage in encountering large prey. These results indicate that net energy yield and the use of microhabitats with different prey sizes are the most important determinants of the body size-prey size relationship in dasyurid marsupials.

Published

1993

29. Postmating mortality of males in the dasyurid marsupials, Dasyurus and Parantechinus

Author

Dickman, C.R. and Braithwaite, R.W.

Subjects

Marsupialia -- Patient outcomes, Mortality -- Research, Animal life cycles -- Research, Zoology and wildlife conservation

Abstract

Postmating death of all males is reported for the first time in field populations of two species of dasyurid marsupials, Parantechinus apicalis and Dasyurus hallacatus. These results differ from field and laboratory studies on other populations of these species, and suggest that life history variation within and between species and genera of dasyurids is more pronounced than has been suspected. Key words: Dasyuridae, postmating death, breeding strategy

Published

1992

30. Predation and habitat shift in the house mouse, Mus domesticus

Author

Dickman, C.R.

Subjects

Mice -- Behavior, Habitat (Ecology) -- Influence, Predation (Biology) -- Influence, Red fox -- Behavior, Biological sciences, Environmental issues

Abstract

This study investigates the responses of house mice (Mus domesticus) to two species of introduced mammalian predators in Western Australia, the red fox (Vulpes vulpes) and cat (Felis catus), and to an endemic carnivorous marsupial, the western quoll (Dasyurus geoffroii). In four study areas containing no mammalian predators, mice showed little discrimination between traps bearing fecal odors of the predators and traps bearing con-specific odors or no odor. Mice in these areas also used sites of different vegetation density roughly in proportion to their abundance, irrespective of the intensity of lunar illumination or whether densities of predator feces were high or low. These results suggest that predator-naive mice do not respond to predator odors or to different levels or predation risk. In contrast, mice in 12 other study areas containing one to three species of mammalian predators avoided traps with predator odors, and generally selected relatively dense vegetation. They also used sites of greater vegetation density on moonlit compared to dark nights, and in two study areas where the density of cat feces had been experimentally increased. These results indicate that mice in areas exposed to mammalian predators distinguish predator odors and use denser vegetation when the perceived risk of predation is increased. In further experiments, I introduced predator-naive and predator-experienced mice to study areas containing cats and foxes. Survival rates of experienced mice a month after release were 2 1/2 times higher than those of their naive counterparts, and hence support the hypothesis that a habitat shift to dense vegetation is an effective anti-predator response. Key words: Dasyurus; experimental manipulation; Felis; field experiment; habitat shift; house mouse; mammalian and marsupial predation; Mus; predation; predator avoidance; rodents; Vulpes.

Published

1992

31. Feeding ecology of red foxes (Vulpes vulpes) in the city of Oxford, England

Author

Doncaster, C.P., Dickman, C.R., and Macdonald, D.W.

Subjects

Animal nutrition -- Research, Animals -- Food and nutrition, Red fox -- Food and nutrition, Zoology and wildlife conservation

Published

1990

32. Geographic and taxonomic patterns of extinction risk in Australian squamates

Author

Tingley, R., Macdonald, S.L., Mitchell, N.J., Woinarski, J.C.Z., Meiri, S., Bowles, P., Cox, N.A., Shea, G.M., Böhm, M., Chanson, J., Tognelli, M.F., Harris, J., Walke, C., Harrison, N., Victor, S., Woods, C., Amey, A.P., Bamford, M., Catt, G., Clemann, N., Couper, P.J., Cogger, H., Cowan, M., Craig, M.D., Dickman, C.R., Doughty, P., Ellis, R., Fenner, A., Ford, S., Gaikhorst, G., Gillespie, G.R., Greenlees, M.J., Hobson, R., Hoskin, C.J., How, R., Hutchinson, M.N., Lloyd, R., McDonald, P., Melville, J., Michael, D.R., Moritz, C., Oliver, P.M., Peterson, G., Robertson, P., Sanderson, C., Somaweera, R., Teale, R., Valentine, L., Vanderduys, E., Venz, M., Wapstra, E., Wilson, S., Chapple, D.G., Tingley, R., Macdonald, S.L., Mitchell, N.J., Woinarski, J.C.Z., Meiri, S., Bowles, P., Cox, N.A., Shea, G.M., Böhm, M., Chanson, J., Tognelli, M.F., Harris, J., Walke, C., Harrison, N., Victor, S., Woods, C., Amey, A.P., Bamford, M., Catt, G., Clemann, N., Couper, P.J., Cogger, H., Cowan, M., Craig, M.D., Dickman, C.R., Doughty, P., Ellis, R., Fenner, A., Ford, S., Gaikhorst, G., Gillespie, G.R., Greenlees, M.J., Hobson, R., Hoskin, C.J., How, R., Hutchinson, M.N., Lloyd, R., McDonald, P., Melville, J., Michael, D.R., Moritz, C., Oliver, P.M., Peterson, G., Robertson, P., Sanderson, C., Somaweera, R., Teale, R., Valentine, L., Vanderduys, E., Venz, M., Wapstra, E., Wilson, S., and Chapple, D.G.

Abstract

Australia is a global hotspot of reptile diversity, hosting similar to 10% of the world's squamate (snake and lizard) species. Yet the conservation status of the Australian squamate fauna has not been assessed for >25 years; a period during which the described fauna has risen by similar to 40%. Here we provide the first comprehensive conservation assessment of Australian terrestrial squamates using IUCN Red List Categories and Criteria. Most (86.4%; n = 819/948) Australian squamates were categorised as Least Concern, 4.5% were Data Deficient, and 7.1% (range 6.8%-11.3%, depending on the treatment of Data Deficient species) were threatened (3.0% Vulnerable, 2.7% Endangered, 1.1% Critically Endangered). This level of threat is low relative to the global average (similar to 18%). One species (Emoia nativitatis) was assessed as Extinct, and two species (Lepidodactylus listeri and Cryptoblepharus egeriae) are considered Extinct in the Wild: all three were endemic to Christmas Island. Most (75.1%) threat assessments were based on geographic range attributes, due to limited data on population trends or relevant proxies. Agriculture, fire, and invasive species were the threats that affected the most species, and there was substantial geographic variation in the number of species affected by each threat. Threatened species richness peaked on islands, in the Southern Alps, and across northern Australia. Data deficiency was greatest in northern Australia and in coastal Queensland. Approximately one-in-five threatened species were not represented in a single protected area. Our analyses shed light on the species, regions, and threats in most urgent need of conservation intervention.

Published

2019

33. Local loss and spatial homogenization of plant diversity reduce ecosystem multifunctionality

Author

Hautier, Y., Isbell, F., Borer, E.T., Seabloom, E.W., Harpole, W.S., Lind, E.M., MacDougall, A.S., Stevens, C.J., Adler, P.B., Alberti, J., Bakker, J.D., Brudvig, L.A., Buckley, Y.M., Cadotte, M., Caldeira, M.C., Chaneton, E.J., Chu, C., Daleo, P., Dickman, C.R., Dwyer, J.M., Eskelinen, A., Fay, P.A., Firn, J., Hagenah, N., Hillebrand, H., Iribarne, O., Kirkman, K.P., Knops, J.M.H., La Pierre, K.J., McCulley, R.L., Morgan, J.W., Pärtel, M., Pascual, J., Price, J.N., Prober, S.M., Risch, A.C., Sankaran, M., Schuetz, M., Standish, R.J., Virtanen, R., Wardle, G.M., Yahdjian, L., Hector, A., Hautier, Y., Isbell, F., Borer, E.T., Seabloom, E.W., Harpole, W.S., Lind, E.M., MacDougall, A.S., Stevens, C.J., Adler, P.B., Alberti, J., Bakker, J.D., Brudvig, L.A., Buckley, Y.M., Cadotte, M., Caldeira, M.C., Chaneton, E.J., Chu, C., Daleo, P., Dickman, C.R., Dwyer, J.M., Eskelinen, A., Fay, P.A., Firn, J., Hagenah, N., Hillebrand, H., Iribarne, O., Kirkman, K.P., Knops, J.M.H., La Pierre, K.J., McCulley, R.L., Morgan, J.W., Pärtel, M., Pascual, J., Price, J.N., Prober, S.M., Risch, A.C., Sankaran, M., Schuetz, M., Standish, R.J., Virtanen, R., Wardle, G.M., Yahdjian, L., and Hector, A.

Abstract

Biodiversity is declining in many local communities while also becoming increasingly homogenized across space. Experiments show that local plant species loss reduces ecosystem functioning and services, but the role of spatial homogenization of community composition and the potential interaction between diversity at different scales in maintaining ecosystem functioning remains unclear, especially when many functions are considered (ecosystem multifunctionality). We present an analysis of eight ecosystem functions measured in 65 grasslands worldwide. We find that more diverse grasslands—those with both species-rich local communities (α-diversity) and large compositional differences among localities (β-diversity)—had higher levels of multifunctionality. Moreover, α- and β-diversity synergistically affected multifunctionality, with higher levels of diversity at one scale amplifying the contribution to ecological functions at the other scale. The identity of species influencing ecosystem functioning differed among functions and across local communities, explaining why more diverse grasslands maintained greater functionality when more functions and localities were considered. These results were robust to variation in environmental drivers. Our findings reveal that plant diversity, at both local and landscape scales, contributes to the maintenance of multiple ecosystem services provided by grasslands. Preserving ecosystem functioning therefore requires conservation of biodiversity both within and among ecological communities.

Published

2018

34. Resource pulses and mammalian dynamics: conceptual models for hummock grasslands and other Australian desert habitats

Author

Letnic, M. and Dickman, C.R.

Subjects

Climate cycles -- Research, Mammals -- Environmental aspects, Cascades (Fluid dynamics) -- Research, Biological sciences

Published

2010

35. Community attitudes and practices of urban residents regarding predation by pet cats on wildlife: An international comparison

Author

Hall, C.M., Adams, N.A., Bradley, J.S., Bryant, K.A., Davis, A.A., Dickman, C.R., Fujita, T., Kobayashi, S., Lepczyk, C.A., McBride, E.A., Pollock, K.H., Styles, I.M., Van Heezik, Y., Wang, F., Calver, M.C., Hall, C.M., Adams, N.A., Bradley, J.S., Bryant, K.A., Davis, A.A., Dickman, C.R., Fujita, T., Kobayashi, S., Lepczyk, C.A., McBride, E.A., Pollock, K.H., Styles, I.M., Van Heezik, Y., Wang, F., and Calver, M.C.

Abstract

International differences in practices and attitudes regarding pet cats' interactions with wildlife were assessed by surveying citizens from at least two cities in Australia, New Zealand, the UK, the USA, China and Japan. Predictions tested were: (i) cat owners would agree less than non-cat owners that cats might threaten wildlife, (ii) cat owners value wildlife less than non-cat owners, (iii) cat owners are less accepting of cat legislation/restrictions than non-owners, and (iv) respondents from regions with high endemic biodiversity (Australia, New Zealand, China and the USA state of Hawaii) would be most concerned about pet cats threatening wildlife. Everywhere non-owners were more likely than owners to agree that pet cats killing wildlife were a problem in cities, towns and rural areas. Agreement amongst non-owners was highest in Australia (95%) and New Zealand (78%) and lowest in the UK (38%). Irrespective of ownership, over 85% of respondents from all countries except China (65%) valued wildlife in cities, towns and rural areas. Non-owners advocated cat legislation more strongly than owners except in Japan. Australian non-owners were the most supportive (88%), followed by Chinese non-owners (80%) and Japanese owners (79.5%). The UK was least supportive (non-owners 43%, owners 25%). Many Australian (62%), New Zealand (51%) and Chinese owners (42%) agreed that pet cats killing wildlife in cities, towns and rural areas was a problem, while Hawaiian owners were similar to the mainland USA (20%). Thus high endemic biodiversity might contribute to attitudes in some, but not all, countries. Husbandry practices varied internationally, with predation highest where fewer cats were confined. Although the risk of wildlife population declines caused by pet cats justifies precautionary action, campaigns based on wildlife protection are unlikely to succeed outside Australia or New Zealand. Restrictions on roaming protect wildlife and benefit cat welfare, so welfare is a bett

Published

2016

36. The success of GPS collar deployments on mammals in Australia

Author

Matthews, A., Ruykys, L., Ellis, B., FitzGibbon, S., Lunney, D., Crowther, M.S., Glen, A.S., Purcell, B., Moseby, K., Stott, J., Fletcher, D., Wimpenny, C.laire, Allen, B.L., Van Bommel, L., Roberts, M., Davies, N., Green, K., Newsome, T., Ballard, G., Fleming, P., Dickman, C.R., Eberhart, A., Troy, S., McMahon, C., Wiggins, N., Matthews, A., Ruykys, L., Ellis, B., FitzGibbon, S., Lunney, D., Crowther, M.S., Glen, A.S., Purcell, B., Moseby, K., Stott, J., Fletcher, D., Wimpenny, C.laire, Allen, B.L., Van Bommel, L., Roberts, M., Davies, N., Green, K., Newsome, T., Ballard, G., Fleming, P., Dickman, C.R., Eberhart, A., Troy, S., McMahon, C., and Wiggins, N.

Abstract

Global Positioning System (GPS) wildlife telemetry collars are being used increasingly to understand the movement patterns of wild mammals. However, there are few published studies on which to gauge their general utility and success. This paper highlights issues faced by some of the first researchers to use GPS technology for terrestrial mammal tracking in Australia. Our collated data cover 24 studies where GPS collars were used in 280 deployments on 13 species, including dingoes or other wild dogs (Canis lupus dingo and hybrids), cats (Felis catus), foxes (Vulpes vulpes), kangaroos (Macropus giganteus), koalas (Phascolarctos cinereus), livestock guardian dogs (C. l. familiaris), pademelons (Thylogale billardierii), possums (Trichosurus cunninghami), quolls (Dasyurus geoffroii and D. maculatus), wallabies (Macropus rufogriseus and Petrogale lateralis), and wombats (Vombatus ursinus). Common problems encountered were associated with collar design, the GPS, VHF and timed-release components, and unforseen costs in retrieving and refurbishing collars. We discuss the implications of collar failures for research programs and animal welfare, and suggest how these could be avoided or improved. Our intention is to provide constructive advice so that researchers and manufacturers can make informed decisions about using this technology, and maximise the many benefits of GPS while reducing the risks.

Published

2013

37. Users beware: implications of database errors when assessing the individual research records of ecologists and conservation biologists

Author

Calver, M.C., Beatty, S.J., Bryant, K.A., Dickman, C.R., Ebner, B.C., Morgan, D.L., Calver, M.C., Beatty, S.J., Bryant, K.A., Dickman, C.R., Ebner, B.C., and Morgan, D.L.

Abstract

Assessments of scientists’ research records through citations are becoming increasingly important in management and in bibliometric research, but the databases available may contain errors that reduce the reliability of assessments. We investigated this by profiling our personal records in five databases: Scopus, Web of Knowledge, Web of Science, the Cited Reference Search within Web of Science, and the freeware Publish or Perish followed by correction in CleanPoP. We documented disparities between the results and our CVs, noting implications for bibliometric analyses from our perspective as conservation biologists. No database provided a complete, accurate record for anyone. Sometimes publications were out of range or missing, especially if they were books and book chapters. Other errors included mistakes in the order of authors or year of publication, as well as misattribution of publications. The Hirsch index (h) was robust across databases, but other metrics were more volatile. Nevertheless, all metrics except median citations/paper gave high correlations of 0.78 or greater for the rank order of authors across databases. Profiling researchers’ records without knowledge of their CVs will likely result in inaccurate assessments. Reliance on one database compounds the problem if the database does not encompass the researcher’s full output, especially books and book chapters. Coverage may be particularly important for conservation biologists, who sometimes publish material of local relevance in local journals not abstracted in some of the databases. Administrators and researchers seeking citation profiles should query multiple databases to obtain a more complete picture of research output and cross check against a full CV when possible. It may be unjustified to assume that discrepancies between database and CV indicate mistakes made by the researcher — verification from the original publication is necessary. Furthermore, citations are but one of many measures availa

Published

2013

38. A ‘perverse incentive’ from bibliometrics: could National Research Assessment Exercises (NRAEs) restrict literature availability for nature conservation?

Author

Calver, M.C., Lilith, M., Dickman, C.R., Calver, M.C., Lilith, M., and Dickman, C.R.

Abstract

National Research Assessment Exercises (NRAEs) aim to improve returns from public funding of research. Critics argue that they undervalue publications influencing practice, not citations, implying that journals valued least by NRAEs are disproportionately useful to practitioners. Conservation biology can evaluate this criticism because it uses species recovery plans, which are practitioner-authored blueprints for recovering threatened species. The literature cited in them indicates what is important to practitioners' work. We profiled journals cited in 50 randomly selected recovery plans from each of the USA, Australia and New Zealand, using ranking criteria from the Australian Research Council and the SCImago Institute. Citations showed no consistent pattern. Sometimes higher ranked publications were represented more frequently, sometimes lower ranked publications. Recovery plans in all countries also contained 37 % or more citations to 'grey literature', discounted in NRAEs. If NRAEs discourage peer-reviewed publication at any level they could exacerbate the trend not to publish information useful for applied conservation, possibly harming conservation efforts. While indicating the potential for an impact does not establish that it occurs, it does suggest preventive steps. NRAEs considering the proportion of papers in top journals may discourage publication in lower-ranked journals, because one way to increase the proportion of outputs in top journals is by not publishing in lower ones. Instead, perhaps only a user-nominated subset of publications could be evaluated, a department's or an individual's share of the top publications in a field could be noted, or innovative new multivariate assessments of research productivity applied, including social impact.

Published

2013

39. Applying the precautionary principle to the issue of impacts by pet cats on urban wildlife

Author

Calver, M.C., Grayson, J., Lilith, M., Dickman, C.R., Calver, M.C., Grayson, J., Lilith, M., and Dickman, C.R.

Abstract

Despite evidence that pet cats prey on urban wildlife and may transmit disease, there is uncertainty over whether they cause declines in wildlife populations. The uncertainty fosters disagreement about whether and how pet cats should be managed, and hampers the implementation of regulations. We suggest that the precautionary principle could be used in this context. The principle mandates action to protect the environment when there is a scientifically plausible but unproven risk, and provides a rationale for immediate intervention to protect wildlife from pet cats while we await definitive studies. In applying a 4-step guide for implementing the precautionary principle, we argue that: (i) current data documenting wildlife mortality caused by pet cats satisfy the precautionary trigger of scientifically plausible risk; (ii) the risk of significant declines or local extinctions of threatened wildlife, coupled with uncertainty in establishing population declines in response to pet cats, argue for strong levels of precaution; (iii) precautionary measures that should be considered include, but are not limited to, restrictions on the maximum number of cats allowed/household, mandatory sterilisation and registration of pet cats, curfews, requiring pet cats roaming outdoors to wear collar-mounted predation-deterrents or compulsory confinement of cats to their owners' premises; and (iv) the principle's requirement for extensive consultation in implementing precautionary measures should encourage collaborations involving conservation biologists, veterinarians, animal welfare activists, concerned citizens and municipal officers. Adherence to these steps should assist in choosing actions that have broad support and are applicable to unique local circumstances.

Published

2011

40. Poisoning for production: how effective is fox baiting in south-eastern Australia?

Author

Gentle, Matthew N., Saunders, G.R., Dickman, C.R., Gentle, Matthew N., Saunders, G.R., and Dickman, C.R.

Abstract

1. The European red fox Vulpes vulpes represents a continuing threat to both livestock and native vertebrates in Australia, and is commonly managed by setting ground-level baits impregnated with 1080 (sodium fluoroacetate) poison. However, the long-term effectiveness of such control campaigns is likely to be limited due to the ability of foxes to disperse over considerable distances and to swiftly recolonize areas from where they had been removed. 2. To investigate the effectiveness of fox baiting in a production landscape, we assessed the potential for foxes to reinvade baited farm property areas within the jurisdiction of the Molong Rural Lands Protection Board (RLPB), an area of 815 000 ha on the central tablelands of New South Wales, Australia. The spatial distribution and timing of fox baiting campaigns between 1998 and 2002 was estimated from RLPB records and mapped using Geographical Information System software. The effectiveness of the control campaign was assessed on the basis of the likely immigration of foxes from non-baited farms using immigration distances calculated from published relationships between dispersal distance and home range size. 3. Few landholders undertook baiting campaigns in any given year, and the area baited was always so small that no baited property would have been sufficiently far from an unbaited property to have been immune from immigrating individuals. It is likely, therefore, that immigration onto farms negated any long-term effects of baiting operations. This study highlights some of the key deficiencies in current baiting practices in south-eastern Australia and suggests that pest management programmes should be monitored using such methods to ensure they achieve their goals.

Published

2007

41. Persistence of sodium monofluoroacetate (1080) in fox baits and implications for fox management in south-eastern Australia

Author

Gentle, Matthew N., Saunders, G.R., Dickman, C.R., Gentle, Matthew N., Saunders, G.R., and Dickman, C.R.

Abstract

The persistence of 1080 in two commonly used fox baits, Foxoff ® and chicken wingettes, was assessed under different climatic and rainfall conditions in central-western New South Wales. The rate of 1080 degradation did not change significantly between the Central Tablelands and the relatively hotter and drier environment of the Western Slopes. Loss of 1080 from wingettes was independent of the rainfall and climate conditions, with wingettes remaining lethal to foxes for, on average, 0.9 weeks. Foxoff ® baits remained lethal for longer than wingettes under all tested conditions, although their rate of degradation increased generally with increasing rainfall. As a result, areas baited with Foxoff® will require longer withholding periods for working dogs than those baited with wingettes, especially during dry periods. Wingettes may have advantages for use in sensitive areas where long-term hazards from toxic baits are undesirable. We found significant variations in 1080 concentration in freshly prepared baits that may result in efficacy, non-target and regulatory concerns for baiting campaigns. As a result, the superior quality control and shelf-stability of manufactured Foxoff® may be important criteria for favouring its use over freshly prepared bait types. However, use strategies for any bait type must ensure that foxes consume lethal doses of 1080 to avoid potential problems such as the development of learned aversion to baits or pesticide resistance.

Published

2007

42. Non-target impacts of poison baiting for predator control in Australia

Author

Glen, A.S., Gentle, Matthew N., Dickman, C.R., Glen, A.S., Gentle, Matthew N., and Dickman, C.R.

Abstract

1. Mammalian predators are controlled by poison baiting in many parts of the world, often to alleviate their impacts on agriculture or the environment. Although predator control can have substantial benefits, the poisons used may also be potentially harmful to other wildlife. 2. Impacts on non-target species must be minimized, but can be difficult to predict or quantify. Species and individuals vary in their sensitivity to toxins and their propensity to consume poison baits, while populations vary in their resilience. Wildlife populations can accrue benefits from predator control, which outweigh the occasional deaths of non-target animals. We review recent advances in Australia, providing a framework for assessing non-target effects of poisoning operations and for developing techniques to minimize such effects. We also emphasize that weak or circumstantial evidence of non-target effects can be misleading. 3. Weak evidence that poison baiting presents a potential risk to non-target species comes from measuring the sensitivity of species to the toxin in the laboratory. More convincing evidence may be obtained by quantifying susceptibility in the field. This requires detailed information on the propensity of animals to locate and consume poison baits, as well as the likelihood of mortality if baits are consumed. Still stronger evidence may be obtained if predator baiting causes non-target mortality in the field (with toxin detected by post-mortem examination). Conclusive proof of a negative impact on populations of non-target species can be obtained only if any observed non-target mortality is followed by sustained reductions in population density. 4. Such proof is difficult to obtain and the possibility of a population-level impact cannot be reliably confirmed or dismissed without rigorous trials. In the absence of conclusive evidence, wildlife managers should adopt a precautionary approach which seeks to minimize potential risk to non-target individuals, while clarif

Published

2007

43. Taxonomic status of the mardo, Antechinus flavipes leucogaster (Marsupialia : Dasyuridae): a morphological, molecular, reproductive and bioclimatic approach

Author

Crowther, M.S., Spencer, P.B.S., Alpers, D., Dickman, C.R., Crowther, M.S., Spencer, P.B.S., Alpers, D., and Dickman, C.R.

Abstract

This paper uses a combined morphological, molecular and ecological approach to assess the taxonomic status of Antechinus flavipes leucogaster from Western Australia, and its relationship to A. flavipes flavipes from eastern Australia. Morphological analyses show that A. flavipes leucogaster is smaller and finer than its eastern Australian counterpart in both cranial and dental dimensions. Phylogenetic analyses of partial cytochrome-b sequences showed that A. flavipes flavipes and A. flavipes leucogaster form reciprocally monophyletic clades that have a relatively high level of divergence (approximately 6%). Analysis of the timing of reproduction indicates that the two subspecies show opposite responses to latitude, with A. flavipes leucogaster ovulating later at high latitudes and A. flavipes flavipes ovulating later in more northerly parts of its range. The combined data and the entirely allopatric distributions of the two subspecies confirm their distinctive status. Bioclimatic analysis suggests further that A. flavipes leucogaster occupies wetter but seasonally more variable environments than its eastern relative. It is clear from the level of morphological, molecular, reproductive and distributional differences that A. flavipes flavipes and A. flavipes leucogaster should be regarded as separate taxa for the purposes of conservation management, and their current subspecific status should be maintained.

Published

2002

44. The index of relative importance: An alternative approach to reducing bias in descriptive studies of animal diets

Author

Hart, R.K., Calver, M.C., Dickman, C.R., Hart, R.K., Calver, M.C., and Dickman, C.R.

Abstract

The Index of Relative Importance (IRI) is a composite measure that reduces bias in descriptions of animal dietary data. The two papers introducing the IRI in 1971 had been cited a total of 214 times by the end of 2001 and proposed as a standard methodology. However, 180 of these citations concerned the description of the diets of fish, indicating that the IRI is not well known outside fisheries biology. This illustrates how the interests of researchers in a narrow range of taxa may restrict the application of a useful technique to particular groups of animals. Here we apply the IRI to dietary data from one mammal species, two bird species and two species of geckoes to illustrate its applicability to a wide range of taxa. We believe the approach should be considered seriously by terrestrial ecologists concerned about the biases inherent in single-index approaches to describing animal diets.

Published

2002

45. Habitat use and density of numbats (Myrmecobius fasciatus) reintroduced in an area of mallee vegetation, New South Wales

Author

Vieira, E.M., primary, Finlayson, G.R., additional, and Dickman, C.R., additional

Published

2007

46. Towards resolving conflict between forestry and conservation in Western Australia

Author

Calver, M.C., Dickman, C.R., Feller, M.C., Hobbs, R.J., Horwitz, P., Recher, H.F., Wardell-Johnston, G., Calver, M.C., Dickman, C.R., Feller, M.C., Hobbs, R.J., Horwitz, P., Recher, H.F., and Wardell-Johnston, G.

Abstract

There is widespread agreement that the indigenous forests of south-western Australia are an important refuge for wildlife in an otherwise extensively cleared landscape and that sustainable use of these forests is possible. Nevertheless, principles-based theses that have been proposed for assessing sustainability of forest use are of limited value unless they include assessable criteria for application. We argue that it is important to recognise that ecological science, like other disciplines is value-laden and that a statement of values is an important part of the scientific process. Furthemore, we believe that there is presently inadequate evidence to judge whether or not the current forest use is sustainable. Several areas-of empirical work are suggested to resolve the outstanding issues.

Published

1998

47. Does intraspecific variation in the energy value of a prey species to its predators matter in studies of ecological energetics? A case study using insectivorous vertebrates

Author

Brooks, S.J., Calver, M.C., Dickman, C.R., Meathrel, C.E., Bradley, J.S., Brooks, S.J., Calver, M.C., Dickman, C.R., Meathrel, C.E., and Bradley, J.S.

Abstract

This study tested the assumption that variation in the energy value of different instars of a hemimetabolous insect makes no ecologically significant difference to rates of energy gain by its vertebrate predators and found it to be supported. Three mammal species, four bird species and a lizard species were used as predators and one grasshopper species as prey. Although instars of both male and female grasshoppers differed significantly in energy values, the energy returns to their predators based on these exact values were qualitatively similar to those produced when a commonly-used constant energy value of 23 J/mg dry weight was substituted. Regressions of specific energy returns on those based on the 23 J/mg constant were highly significant, so energy returns based on the constant were good predictors of those based on specific energy values. Although significant intraspecific variations in energy values occur in Acrida conica and probably in other hemimetabolous insects as well, the 23 J/mg dry weight constant appears adequate for most predation studies.

Published

1996

48. Patterns of vertebrate predation on grasshoppers.

Author

Calver, M.C., Dickman, C.R., Meathrel, C.E., Calver, M.C., Dickman, C.R., and Meathrel, C.E.

Published

1996

49. Diet and Winter Foraging Behaviour of The Red Fox (Vulpes vulpes) In Alpine and Subalpine New South Wales.

Author

Bubela, T.M., primary, Dickman, C.R., additional, and Newsome, A.E., additional

Published

1998

50. Long-range movements of small mammals in arid Australia: implications for land management

Author

Dickman, C.R., primary, Predavec, M., additional, and Downey, F.J., additional

Published

1995