The role of odour in Australian mammalian predator/prey interactions

Russell, Benjamin Gallard, School of Biological, Earth & Environmental Sciences, UNSW

January 2005

Odour plays an important role in many predator/prey interactions. In the northern hemisphere, many mammalian prey species have been shown to respond to predator odours. It is also widely assumed that mammalian predators utilise odours to locate their prey. This thesis explores the importance of odour in Australian mammalian predator/prey interactions. Responses of native Australian species to the faecal odour of two predators; the native tiger quoll Dasyurus maculatus and the introduced red fox Vulpes vulpes, were evaluated through live-trapping and focussed behavioural studies of captive animals. Tiger quoll responses to prey olfactory cues were investigated in a captive experiment. Native rodents (bush rats Rattus fuscipes, swamp rats R. lutreolus and eastern chestnut mice Pseudomys gracilicaudatus) equally avoided traps scented with either quoll or fox faeces, and in captive experiments, bush rats and swamp rats reduced their average speed in response to both predator odours. Of the marsupial species, northern brown bandicoots Isoodon macrourus and common brushtail possums Trichosurus vulpecula were captured more frequently in quoll-scented traps than unscented traps or foxscented traps, while captures of brown antechinus Antechinus stuarttii, long-nosed bandicoots Perameles nasuta and southern brown bandicoot I. obesulus were unaffected by the either predator odour. In captive experiments, brown antechinus, long-nosed and northern brown bandicoots decreased their foraging in response to both predator odours, and spent less time in areas scented with quoll faeces. Tiger quolls didn't appear to detect odour sources from a distance of >65 cm, but they did follow scent trails and spent more time in areas scented with the urine and faeces of potential prey. Chemical analysis revealed no common components in fox and quoll odour which prey species could be responding to. Therefore, these native species have evolved to respond to fox odour since foxes were introduced to Australia 130 years ago. The stronger response of native rodents to fox odour may be a legacy of their co-evolution with canid predators prior to entering Australia. A better understanding of how odour is utilised in Australian predator/prey interactions may lead to a greater ability to protect Australia's unique mammalian fauna from introduced predators.

Predation (Biology)

Smell

The role of odour in Australian mammalian predator/prey interactions

Russell, Benjamin Gallard, School of Biological, Earth & Environmental Sciences, UNSW

January 2005

Odour plays an important role in many predator/prey interactions. In the northern hemisphere, many mammalian prey species have been shown to respond to predator odours. It is also widely assumed that mammalian predators utilise odours to locate their prey. This thesis explores the importance of odour in Australian mammalian predator/prey interactions. Responses of native Australian species to the faecal odour of two predators; the native tiger quoll Dasyurus maculatus and the introduced red fox Vulpes vulpes, were evaluated through live-trapping and focussed behavioural studies of captive animals. Tiger quoll responses to prey olfactory cues were investigated in a captive experiment. Native rodents (bush rats Rattus fuscipes, swamp rats R. lutreolus and eastern chestnut mice Pseudomys gracilicaudatus) equally avoided traps scented with either quoll or fox faeces, and in captive experiments, bush rats and swamp rats reduced their average speed in response to both predator odours. Of the marsupial species, northern brown bandicoots Isoodon macrourus and common brushtail possums Trichosurus vulpecula were captured more frequently in quoll-scented traps than unscented traps or foxscented traps, while captures of brown antechinus Antechinus stuarttii, long-nosed bandicoots Perameles nasuta and southern brown bandicoot I. obesulus were unaffected by the either predator odour. In captive experiments, brown antechinus, long-nosed and northern brown bandicoots decreased their foraging in response to both predator odours, and spent less time in areas scented with quoll faeces. Tiger quolls didn't appear to detect odour sources from a distance of >65 cm, but they did follow scent trails and spent more time in areas scented with the urine and faeces of potential prey. Chemical analysis revealed no common components in fox and quoll odour which prey species could be responding to. Therefore, these native species have evolved to respond to fox odour since foxes were introduced to Australia 130 years ago. The stronger response of native rodents to fox odour may be a legacy of their co-evolution with canid predators prior to entering Australia. A better understanding of how odour is utilised in Australian predator/prey interactions may lead to a greater ability to protect Australia's unique mammalian fauna from introduced predators.

Predation (Biology)

Smell

The role of odour in Australian mammalian predator/prey interactions

Russell, Benjamin Gallard, School of Biological, Earth & Environmental Sciences, UNSW

January 2005

Odour plays an important role in many predator/prey interactions. In the northern hemisphere, many mammalian prey species have been shown to respond to predator odours. It is also widely assumed that mammalian predators utilise odours to locate their prey. This thesis explores the importance of odour in Australian mammalian predator/prey interactions. Responses of native Australian species to the faecal odour of two predators; the native tiger quoll Dasyurus maculatus and the introduced red fox Vulpes vulpes, were evaluated through live-trapping and focussed behavioural studies of captive animals. Tiger quoll responses to prey olfactory cues were investigated in a captive experiment. Native rodents (bush rats Rattus fuscipes, swamp rats R. lutreolus and eastern chestnut mice Pseudomys gracilicaudatus) equally avoided traps scented with either quoll or fox faeces, and in captive experiments, bush rats and swamp rats reduced their average speed in response to both predator odours. Of the marsupial species, northern brown bandicoots Isoodon macrourus and common brushtail possums Trichosurus vulpecula were captured more frequently in quoll-scented traps than unscented traps or foxscented traps, while captures of brown antechinus Antechinus stuarttii, long-nosed bandicoots Perameles nasuta and southern brown bandicoot I. obesulus were unaffected by the either predator odour. In captive experiments, brown antechinus, long-nosed and northern brown bandicoots decreased their foraging in response to both predator odours, and spent less time in areas scented with quoll faeces. Tiger quolls didn't appear to detect odour sources from a distance of >65 cm, but they did follow scent trails and spent more time in areas scented with the urine and faeces of potential prey. Chemical analysis revealed no common components in fox and quoll odour which prey species could be responding to. Therefore, these native species have evolved to respond to fox odour since foxes were introduced to Australia 130 years ago. The stronger response of native rodents to fox odour may be a legacy of their co-evolution with canid predators prior to entering Australia. A better understanding of how odour is utilised in Australian predator/prey interactions may lead to a greater ability to protect Australia's unique mammalian fauna from introduced predators.

Predation (Biology)

Smell

The role of odour in Australian mammalian predator/prey interactions

Russell, Benjamin Gallard, School of Biological, Earth & Environmental Sciences, UNSW

January 2005

Odour plays an important role in many predator/prey interactions. In the northern hemisphere, many mammalian prey species have been shown to respond to predator odours. It is also widely assumed that mammalian predators utilise odours to locate their prey. This thesis explores the importance of odour in Australian mammalian predator/prey interactions. Responses of native Australian species to the faecal odour of two predators; the native tiger quoll Dasyurus maculatus and the introduced red fox Vulpes vulpes, were evaluated through live-trapping and focussed behavioural studies of captive animals. Tiger quoll responses to prey olfactory cues were investigated in a captive experiment. Native rodents (bush rats Rattus fuscipes, swamp rats R. lutreolus and eastern chestnut mice Pseudomys gracilicaudatus) equally avoided traps scented with either quoll or fox faeces, and in captive experiments, bush rats and swamp rats reduced their average speed in response to both predator odours. Of the marsupial species, northern brown bandicoots Isoodon macrourus and common brushtail possums Trichosurus vulpecula were captured more frequently in quoll-scented traps than unscented traps or foxscented traps, while captures of brown antechinus Antechinus stuarttii, long-nosed bandicoots Perameles nasuta and southern brown bandicoot I. obesulus were unaffected by the either predator odour. In captive experiments, brown antechinus, long-nosed and northern brown bandicoots decreased their foraging in response to both predator odours, and spent less time in areas scented with quoll faeces. Tiger quolls didn't appear to detect odour sources from a distance of >65 cm, but they did follow scent trails and spent more time in areas scented with the urine and faeces of potential prey. Chemical analysis revealed no common components in fox and quoll odour which prey species could be responding to. Therefore, these native species have evolved to respond to fox odour since foxes were introduced to Australia 130 years ago. The stronger response of native rodents to fox odour may be a legacy of their co-evolution with canid predators prior to entering Australia. A better understanding of how odour is utilised in Australian predator/prey interactions may lead to a greater ability to protect Australia's unique mammalian fauna from introduced predators.

Predation (Biology)

Smell

The role of odour in Australian mammalian predator/prey interactions

Russell, Benjamin Gallard, School of Biological, Earth & Environmental Sciences, UNSW

January 2005

Odour plays an important role in many predator/prey interactions. In the northern hemisphere, many mammalian prey species have been shown to respond to predator odours. It is also widely assumed that mammalian predators utilise odours to locate their prey. This thesis explores the importance of odour in Australian mammalian predator/prey interactions. Responses of native Australian species to the faecal odour of two predators; the native tiger quoll Dasyurus maculatus and the introduced red fox Vulpes vulpes, were evaluated through live-trapping and focussed behavioural studies of captive animals. Tiger quoll responses to prey olfactory cues were investigated in a captive experiment. Native rodents (bush rats Rattus fuscipes, swamp rats R. lutreolus and eastern chestnut mice Pseudomys gracilicaudatus) equally avoided traps scented with either quoll or fox faeces, and in captive experiments, bush rats and swamp rats reduced their average speed in response to both predator odours. Of the marsupial species, northern brown bandicoots Isoodon macrourus and common brushtail possums Trichosurus vulpecula were captured more frequently in quoll-scented traps than unscented traps or foxscented traps, while captures of brown antechinus Antechinus stuarttii, long-nosed bandicoots Perameles nasuta and southern brown bandicoot I. obesulus were unaffected by the either predator odour. In captive experiments, brown antechinus, long-nosed and northern brown bandicoots decreased their foraging in response to both predator odours, and spent less time in areas scented with quoll faeces. Tiger quolls didn't appear to detect odour sources from a distance of >65 cm, but they did follow scent trails and spent more time in areas scented with the urine and faeces of potential prey. Chemical analysis revealed no common components in fox and quoll odour which prey species could be responding to. Therefore, these native species have evolved to respond to fox odour since foxes were introduced to Australia 130 years ago. The stronger response of native rodents to fox odour may be a legacy of their co-evolution with canid predators prior to entering Australia. A better understanding of how odour is utilised in Australian predator/prey interactions may lead to a greater ability to protect Australia's unique mammalian fauna from introduced predators.

Predation (Biology)

Smell

Vers une gestion intégrative des populations animales : l'importance d'intégrer l'immigration à la compréhension de leur dynamique et à l'évaluation scientifique des actions de régulation et de conservation / Towards an integrative management of animal populations : integrating immigration in the study of population dynamics and the evaluation of conservation and control actions

Lieury, Nicolas

21 July 2015

Pour limiter l'impact des activités humaines sur la biodiversité, les populations animales sont gérées dans de nombreux contextes. La gestion des populations animales comprend la conservation des espèces menacées, comme l’exploitation/régulation des espèces gibiers ou considérées nuisibles. Elle consiste à modifier la dynamique des populations soit en favorisant leur croissance, soit en réduisant leur abondance. Face à l’urgence d’agir dans un contexte de ressources financières limitées, une gestion efficiente des populations animales requiert une bonne compréhension de leur dynamique en réponse aux actions mises en œuvre. Durant mon doctorat, j’ai travaillé en partenariat avec des gestionnaires agissant sur deux systèmes biologiques : la conservation de rapaces méditerranéens (aigles de Bonelli et vautours percnoptères) et la régulation des densités de renards en paysage rural. Pour chaque système, mon travail a consisté i) en l’analyse des suivis de populations qui sont réalisés pour ii) évaluer l’effet de la gestion sur la dynamique des espèces gérées. Dans les deux contextes, j’ai pu iii) mettre en évidence la contribution de l’immigration à la croissance des populations menacées, comme à l’atténuation des effets de la régulation. Après iv) avoir extrait des recommandations pouvant améliorer l’efficience de la gestion en tenant compte de ces processus d’immigration, mon travail s’est conclu par v) une réflexion en retour sur l’optimisation des suivis de populations, afin qu’ils génèrent le plus d’informations pour un investissement moindre. Dans l’ensemble, ce travail aboutit à une réflexion sur les moyens favorisant une gestion efficiente des populations animales. / Due to the multiple interactions linking species together, human activities and animal species influence each other. Animal populations are therefore managed to favour long-term cohabitation. Wildlife management includes the conservation of endangered species, the harvest of game species and the control of species considered as pest. It consists in impacting population dynamics (density variation in a territory) either by favouring or limiting population growth. Faced with the complexity of ecological processes and the urgent need for acting in a context of decreasing allocated resources, an efficient management requires a precious understanding of population dynamics in response to actions. During my PhD, I collaborated with managers supervising two contrasted biological systems: the conservation of endangered Mediterranean raptors (Bonelli’s eagles and Egyptian vultures) and the control of fox densities in French rural landscapes. For each case of study, my work consisted in i) analysing data from population monitoring designed to ii) evaluate the management impact on population dynamics. In both systems, I highlighted iii) the crucial importance of immigration either in boosting endangered population or compensating for fox regulation. After having iv) derived concrete guidelines to improve management facing with immigration. I concluded my PhD by v) searching in turn for cost-effective designs of population monitoring. Overall, I questioned the contrasted systems I studied to understand pitfalls and solutions favouring an efficient management of animal populations.

Gestion

Populations

Conservation

Renard roux

Vautour percnoptère

Aigle de Bonelli

Immigration

Dynamique

Capture-Marquage-Recapture

Population management

Conservation

Red fox

Egyptian vulture

Bonelli's eagle

Immigration

Population dynamics

Capture-Mark-Recapture

Integrated population models

Fragmentace a savčí predátoři v lesních habitatech: faktory ovlivňující jejich distribuci a výběr prostředí / Fragmentation and mammalian carnivores in forest habitats: variables which affect carnivores distribution and habitat choice

PAVLUVČÍK, Petr

January 2010

The human use of landscape causes fragmentation and loss of original habitats. Different species vary in their sensitivity to habitat loss. Especially carnivores can be more sensitive to decrease of their habitat because of lower abundance of their prey. On the other hand several opportunistic carnivores can profit in human modified habitats. This study was carried out in the České Budějovice basin, Czech Republic during the years 2008 and 2009 and the aim of this study was to determine carnivore{\crq}s habitat preferences in the fragmented landscape. During these two years were seven carnivore species monitored in forest patches by using scent stations. Records of this monitoring were compared with physiognomy of these patches and structure of surrounding landscape.

Untersuchungen zum Raumnutzungsverhalten und zur Nahrungsökologie ausgewählter Raubsäugerarten im brandenburgischen Vogelschutzgebiet „Mittlere Havelniederung“ mit besonderem Blick auf am Boden brütende Vogelarten

Fiderer, Christian Tobias

29 August 2019

Seit mehreren Jahrzehnten nehmen die Bestandszahlen von Bodenbrütern europaweit ab, ein Prozess, der hauptsächlich auf die Intensivierung der Landwirtschaft zurückzuführen ist. In diesem Zusammenhang könnte aber auch die zunehmende Prädation von Raubsäugern (Carnivora, Mammalia) eine wichtige Rolle spielen. Ziel dieser Studie war die Bewertung und Einschätzung des Prädationspotentials ausgewählter Raubsäugerarten auf Bodenbrüter im brandenburgischen Vogelschutzgebiet "Mittlere Havelniederung". Von Mai 2015 bis Juni 2017 wurde die Raumnutzung verschiedener Raubsäugerarten mittels Kamerafallen und einer Telemetriestudie untersucht und anschließend mit den Ergebnissen einer Vogelkartierung verglichen. Ergänzt wurden die Untersuchungen mit einer Losungsanalyse der am häufigsten beobachteten Raubsäugerarten Waschbär (Procyon lotor) und Rotfuchs (Vulpes vulpes). Waschbären wiesen eine hohe Standorttreue sowie eine hohe Präferenz für Gewässer und Feuchtgebiete auf, während Rotfüchse eine hohe intraspezifische Variabilität in Bezug auf ihre Habitatnutzung sowie ein hohes Abwanderungsverhalten zeigten. Die Ergebnisse lassen außerdem ein hohes Prädationspotential des Waschbären auf Wasservögel vermuten, während der Einfluss auf Wiesenbrüter geringer zu sein scheint. Diese scheinen den höchsten Prädationsdruck durch den Rotfuchs zu erfahren. Die Nahrungsanalysen bestätigen diese Ergebnisse und spiegeln auch räumliche Bewegungsmuster beider Arten wieder. Diese Studie liefert als eine der europaweit ersten Studien empirische Belege für ein starkes indirektes und direktes Prädationspotential des Waschbären insbesondere auf Wasservögel. Zudem hebt diese Studie die Notwendigkeit einer differenzierten Betrachtung potenzieller Auswirkungen von Raubsäugern auf Bodenbrüter hervor und gibt einen Hinweis darauf, dass das Prädationspotential einer Raubsäugerart eng mit der Strukturvielfalt eines Lebensraums und somit mit der Intensität der landwirtschaftlichen Bewirtschaftung zusammenhängt. / Over recent decades, a general decline in ground-nesting bird species has been recorded all over Europe and this trend is mainly a result of agricultural intensification. However, increasing predation pressure by carnivores (Carnivora, Mammalia) might also play an important role in this context. The aim of this study was to assess and evaluate the predatory potential of selected carnivore species on ground-nesting birds in the Special Protection Area `Mittlere Havelniederung’ in Brandenburg, Germany. Between May 2015 and June 2017, camera- trapping and a telemetry study were carried out to investigate the spatial behavior of mesocarnivore species. Subsequently, spatial data were compared with results of a bird mapping and complemented by an analysis of scat contents of the most abundant carnivore species raccoon (Procyon lotor) and red fox (Vulpes vulpes). Camera trapping revealed a high diversity of carnivores. In addition, spatial distribution patterns showed high site fidelity and an exclusive preference for waters and swamplands in raccoons, while red foxes showed a high level of intraspecific variance in habitat use and a pronounced level of migratory activity. Predator-prey spatial overlap assumes a high potential impact of raccoons on water-associated bird species, while their impact on grassland birds appears not as important. Grassland birds seem to experience highest predatory pressure by red foxes. Dietary analysis support these results and confirm species-specific spatial patterns. As one of the first studies in Europe, this study provides empirical evidence of raccoons’ strong indirect and direct predatory potential in particular on water-associated bird species. Besides, this study highlights the need for a differentiated view on the potential impact of carnivore species on ground-nesting birds and suggests, that the predatory potential of a carnivore species is linked with landscape diversity and thus with intensity of agricultural land use practices.

Landwirtschaft

Raumnutzung

Habitatnutzung

Waschbär

Rotfuchs

Fuchs

Vogelschutzgebiet

Vulpes vulpes

Procyon lotor

Havelniederung

agriculture

habitat use

red fox

fox

raccoon

Special Protection Area

Vulpes vulpes

Procyon lotor

spatial behavior

Havelniederung

590 Tiere (Zoologie)

577 Ökologie

WI 2025

WI 7770

WI 1834

ddc:590

ddc:577