Repulsive-attractive models for the impact of two predators on prey species varying in anti-predator response

Ddumba, Hassan

January 2011

This study considers the dynamical interaction of two predatory carnivores (Lions (Panthera leo) and Spotted Hyaenas (Crocuta crocuta)) and three of their common prey (Buffalo (Syncerus caffer), Warthog (Phacochoerus africanus) and Kudu (Tragelaphus strepsiceros)). The dependence on spatial structure of species’ interaction stimulated the author to formulate reaction-diffusion models to explain the dynamics of predator-prey relationships in ecology. These models were used to predict and explain the effect of threshold populations, predator additional food and prey refuge on the general species’ dynamics. Vital parameters that model additional food to predators, prey refuge and population thresholds were given due attention in the analyses. The stability of a predator-prey model for an ecosystem faced with a prey out-flux which is analogous to and modelled as an Allee effect was investigated. The results highlight the bounds for the conversion efficiency of prey biomass to predator biomass (fertility gain) for which stability of the three species ecosystem model can be attained. Global stability analysis results showed that the prey (warthog) population density should exceed the sum of its carrying capacity and threshold value minus its equilibrium value i.e., W >(Kw + $) −W . This result shows that the warthog’s equilibrium population density is bounded above by population thresholds, i.e., W < (Kw+$). Besides showing the occurrence under parameter space of the so-called paradox of enrichment, early indicators of chaos can also be deduced. In addition, numerical results revealed stable oscillatory behaviour and stable spirals of the species as predator fertility rate, mortality rate and prey threshold were varied. The stabilising effect of prey refuge due to variations in predator fertility and proportion of prey in the refuge was studied. Formulation and analysis of a robust mathematical model for two predators having an overlapping dietary niche were also done. The Beddington-DeAngelis functional and numerical responses which are relevant in addressing the Principle of Competitive Exclusion as species interact were incorporated in the model. The stabilizing effect of additional food in relation to the relative diffusivity D, and wave number k, was investigated. Stability, dissipativity, permanence, persistence and periodicity of the model were studied using the routine and limit cycle perturbation methods. The periodic solutions (b 1 and b 3), which influence the dispersal rate (') of the interacting species, have been shown to be controlled by the wave number. For stability, and in order to overcome predator natural mortality, the nutritional value of predator additional food has been shown to be of high quality that can enhance predator fertility gain. The threshold relationships between various ecosystem parameters and the carrying capacity of the game park for the prey species were also deduced to ensure ecosystem persistence. Besides revealing irregular periodic travelling wave behaviour due to predator interference, numerical results also show oscillatory temporal dynamics resulting from additional food supplements combined with high predation rates.

Pattern formation (Biology)

Predatory animals -- Ecology

Optimal policies directed at reducing pest damages for a pestpredator model /

Chan, Wenyaw

January 1984

No description available.

Statistics

Pests--Control

Pests--Biological control

Crop losses

Predatory animals--Control

An investigation of plant-derived cardiac glycosides as a possible basis for aposematism in the aphidophagous hoverfly Ischiodon aegryptius (Wiedemann) (Diptera: Syrphidae)

Malcolm, Stephen Baillie

January 1977

The chemical defences of insects against predators are either passive or aggressive. Passive defence is achieved through crypsis, and aggressive defence is maintained by a conspicuous or 'aposematic' (Poulton, 1890) appearance that advertises some noxious quality of the insect harmful to a predator. Aposematism is mutually beneficial to both the bearer and its predator, whereas crypsis only benefits the prey species. It is therefore not surprising that the fascinating array of chemical defences in insects is both diverse and widespread (Roth and Eisner, 1962). Intro. p. 1.

Diptera

Syrphidae

Aphidophagous insects

Predatory animals

Insect-plant relationships

Insect pests -- Biological control

Insects as carriers of disease

An assessment of human carnivore conflict in the Kalahari region of Botswana

Klein, Rebecca Ann

January 2014

Human wildlife conflict is a considerable conservation challenge that threatens many carnivore species worldwide and is a result of complex socio-economic and ecological processes. An understanding of the drivers of conflict is essential for any efforts to achieve coexistence. This study investigated the levels of conflict, livestock management and tolerance amongst the farming communities of the Southern and Western Kalahari in Botswana. A questionnaire survey was completed with 310 farmers throughout the region. The majority of respondents regarded coexisting with carnivores as a challenge, with losses due to depredation perceived as the greatest problem facing farmers. Conflict was widespread throughout the study area, with some spatial variations for certain species. Cattle management levels were low and while smallstock management was better, the use of improved levels of management could reduce current levels of conflict. Tolerance levels were generally low with few respondents seeing the benefits of coexistence with carnivore species. The results indicated that farm type, gender, education level, source of income, livestock numbers, location and land use all have an effect on perceived conflict and tolerance levels and strongly interact with each other. In general cattleposts were characterised by higher proportions of females, lower education levels, more benefits derived from wildlife and veld products and fewer livestock than fenced ranches. They also experienced more conflict, carried out more management and had better tolerance levels. It could be that closer connections to the land and deriving benefits from natural resources resulted in more tolerance and this is certainly worth further investigation. An improvement in the use of effective methods of livestock management, targeted environmental education programs to develop a greater awareness for the conservation value of carnivores and a diversification of livelihoods to include benefits from natural resources have the potential to reduce conflict and improve tolerance in the Kalahari region.

Carnivores -- Botswana

Human-animal relationships

Predatory animals -- Control -- Botswana

Wildlife depredation -- Botswana

How does the ungulate community respond to predation risk from cheetah (Acinonyx jubatus) in Samara Private Game Reserve?

Makin, Douglas Ferguson

January 2012

Predator reintroductions are becoming increasingly more common for multiple reasons, including assisting with the conservation of a predator species, the restoration of ecosystem functions and the economic benefits of their reintroduction for ecotourism ventures. There remains however, little knowledge on prey species responses to these predator reintroductions. As such, the reintroduction of cheetah (Acinonyx jubatus) into Samara Private Game Reserve provided an opportunity to investigate prey responses to predator reintroduction across a range of spatial and temporal scales. More specifically, the aim of this study was to investigate the effect of cheetah predation risk on habitat use and behavioural responses of the resident ungulate community. Samara is divided into “predator present” and “predator absent” sections, providing the opportunity to conduct a comparative study investigating the effect of cheetah on prey responses. It was hypothesized that different ungulate species would respond differently to the presence of cheetah, depending on differences in perceived vulnerability to cheetah predation. To address this, shifts in habitat use, and behavioural responses of the ungulate community reflected at landscape and patch scale were investigated. Overall, ungulate species have not shifted habitat use since cheetah reintroduction, this was possibly related to life history strategy constraints and the need for individuals to obtain suitable forage and therefore remain in specific habitats. While no shift in habitat use was observed for the majority of ungulate species, a shift in behaviour was observed for kudu (Tragelaphus strepsiceros) at a landscape scale, where kudu dedicated more time to vigilance and less time to foraging within the predator section. In addition, individuals within smaller kudu groups were observed to be more vigilant than individuals within larger groups of kudu within the predator section. Although the other three ungulate species monitored did not increase time spent vigilant within the predator section, they still maintained relatively high levels of vigilance, potentially as a means of social monitoring. At a patch level, ungulate species responded strongly to a predator cue as a proxy for cheetah proximity, and increased time spent vigilant with a trade-off of lower foraging effort. This vigilant response was strongest for kudu. Differences in perceived predation risk were reflected within eland (Tragelaphus oryx) and kudu species demographic classes, with juvenile eland and kudu, adult female kudu and subadult female kudu spending more time vigilant within manipulated patches than respective males of each species. Kudu were also observed adopting fine-scale behavioural responses to minimize predation risk within patches. The asymmetrical prey species response to perceived predation risk from cheetah supports the hypothesis that different species respond differently to the presence of a predator. Furthermore, this study illustrated the importance of measuring prey responses to predation risk across multiple scales and highlighted the need to replicate this study for a number of different sites where predators have been reintroduced, to better understand the range of factors influencing these predator-prey interactions.

The Nature of People's Perceptions of Wolves

Nobel, Laura Briana

01 January 2009

European immigrants once regarded wolves as the "devil in disguise" (Lopez, 1978, p.40). With our growing awareness of other cultural perspectives and flourishing body of scientific knowledge with regard to wolves' behavior, our perceptions of wolves have become more complicated and nuanced. Our collective awareness of the environment in which we live also gathers complexity. I examine these issues in this study. Wolves are returning to Oregon. The arrival of wolf B-45 in 1999 heralded the beginning of the return of wild wolves to Oregon. More wolves are expected to cross the border as young sub-adults disperse from the growing population in Idaho. This study explores our perceptions of wolves using empirical, qualitative methodology. Running in parallel with this main goal, I also seek to understand how these perceptions relate on a larger scale to the ways we understand nature. In exploring these questions qualitatively, I seek to answer the following questions: (a) What ways can story play a role in defining people’s perceptions, in particular, of wolves? (b) What lessons can be learned to inform future ecological educators' work to communicate on this or other similarly complex topics? (c) What is the collective story that we can tell each other on the eve of wolves' presence in the Oregon landscape becoming an acknowledged reality once again? (d) Finally, how can what is learned inform future ecological educational programs regarding wolves in the state? This study explores the above questions. In considering people's perceptions, I attempt to examine whether the desires to exterminate wolves are really gone. Perhaps, as we learn more about the complex ways that wolves interact in the landscape and the various ways that humans react to the idea of wolves, we may recognize the greater complexities in the ways we inter-relate with them.

Wolves -- Oregon -- Public opinion

Wildlife recovery -- Oregon

Educational Leadership

Determinação do padrão de interação entre predador (Cryptolaemus montrouzieri) e presa (Cochonilha do Carmim) usando equações de de Lotka-Volterra

Mirella Renata de Lira Freire

08 May 2012

O uso de ferramentas matemáticas e computacionais se faz cada vez mais presente nos estudos da dinâmica predador-presa devido à complexidade das populações que sofrem influências externas relativas à interação com o ambiente. O objetivo deste estudo foi investigar as equações de Lotka-Volterra e aplicá-las para modelar e descrever a dinâmica da interação entre o inseto Cryptolaemus montrouzieri (predador) e sua presa, a cochonilha-do-carmim (Dactylopius opuntiae) visando identificar cenários que conduzam ao combate da cochonilha. Esta é uma praga que tem atacado severamente as áreas de cultivo da palma forrageira, utilizada para alimentação de caprinos, ovinos e bovinos causando prejuízos econômicos, ambientais e sociais à região do semiárido nordestino. A destruição dos palmais devido ao ataque da cochonilha obriga os agricultores a se desfazerem dos seus rebanhos, migrarem para outras regiões ou devastar áreas da Caatinga para realizar novos plantios de palma. Diante do exposto, verifica-se a necessidade de prover suporte para uma cultura sustentável da palma forrageira, essencial para o gado leiteiro. Para fins de controle de pragas, órgãos como a Embrapa e o IPA têm recomendado o controle biológico da cochonilha através da introdução de seu inimigo natural (C. montrouzieri) que tem se mostrado eficiente no combate à praga. Neste trabalho foram realizadas simulações da evolução das populações de D. opuntiae e de C. montrouzieri utilizando as equações que representam o modelo Lotka-Volterra e suas variantes. Os resultados desta pesquisa têm tornado possível sugerir a quantidade de predadores a ser inserida no ambiente natural para buscar combater e controlar a infestação de pragas que tem causado danos à região do Semiárido do Nordeste. O uso do modelo não apenas possibilita sugerir a população de predadores para interagir com a espécie presa numa relação trófica, como também permite o monitoramento da conformidade da evolução populacional das espécies estudadas / The use of mathematical and computational tools have been found within studies of the dynamics of predator-prey due to the complexities of the population evolution that suffer external influences of their interaction with the environment. Within this context, this work aims at investigating the Lotka-Volterra model and apply them to capture and describe the dynamics of the interaction between the Cryptolaemus montrouzieri (predator) and its prey, the cochineal-carmine (Dactylopius opuntiae) in order to identify scenarios that aim at reducing the amount of ladybug. This a pest that has infested a large area in the semiarid region of the Northeast Brazil where the cactus pear has been used as a base of supply for ruminants. As a result, environmental damages as well as social and economic losses have occurred. This pest infestation has caused farmers migration to other areas. Given the above, there is a need to provide support for a sustainable cultivation of cactus pear. For the purpose of pest control, agencies such as Embrapa and IPA have recommended biological control of ladybug by introducing natural enemies such as C. montrouzieri that has been effective at reducing the pest. In that sense, within this work simulations of population evolution for D. opuntiae and C. montrouzieri have been made by using the Lotka-Volterra equations as well as its variants. Results of this research has made possible to suggest the amount of predators that might be inserted into the natural environment aiming at reducing and control pest infestation in a case study of the semiarid region of the Northeast Brazil. The use of the model not only allows suggesting the population of predators for species within a trophic interaction, but also allows the monitoring of compliance of the evolution of the species under study

dissertações

Lotka-Volterra, equações de

pragas agrícolas - controle biológico

animais predadores

dissertation

Lotka-Volterra equations

predatory animals

BIOLOGIA GERAL

Determinação do padrão de interação entre predador (Cryptolaemus montrouzieri) e presa (Cochonilha do Carmim) usando equações de de Lotka-Volterra

Freire, Mirella Renata de Lira

08 May 2012

Made available in DSpace on 2017-06-01T18:20:36Z (GMT). No. of bitstreams: 1 dissertacao_mirella_renata.pdf: 1480280 bytes, checksum: 15dfff5f39ca1626a0e638550e849fec (MD5) Previous issue date: 2012-05-08 / The use of mathematical and computational tools have been found within studies of the dynamics of predator-prey due to the complexities of the population evolution that suffer external influences of their interaction with the environment. Within this context, this work aims at investigating the Lotka-Volterra model and apply them to capture and describe the dynamics of the interaction between the Cryptolaemus montrouzieri (predator) and its prey, the cochineal-carmine (Dactylopius opuntiae) in order to identify scenarios that aim at reducing the amount of ladybug. This a pest that has infested a large area in the semiarid region of the Northeast Brazil where the cactus pear has been used as a base of supply for ruminants. As a result, environmental damages as well as social and economic losses have occurred. This pest infestation has caused farmers migration to other areas. Given the above, there is a need to provide support for a sustainable cultivation of cactus pear. For the purpose of pest control, agencies such as Embrapa and IPA have recommended biological control of ladybug by introducing natural enemies such as C. montrouzieri that has been effective at reducing the pest. In that sense, within this work simulations of population evolution for D. opuntiae and C. montrouzieri have been made by using the Lotka-Volterra equations as well as its variants. Results of this research has made possible to suggest the amount of predators that might be inserted into the natural environment aiming at reducing and control pest infestation in a case study of the semiarid region of the Northeast Brazil. The use of the model not only allows suggesting the population of predators for species within a trophic interaction, but also allows the monitoring of compliance of the evolution of the species under study / O uso de ferramentas matemáticas e computacionais se faz cada vez mais presente nos estudos da dinâmica predador-presa devido à complexidade das populações que sofrem influências externas relativas à interação com o ambiente. O objetivo deste estudo foi investigar as equações de Lotka-Volterra e aplicá-las para modelar e descrever a dinâmica da interação entre o inseto Cryptolaemus montrouzieri (predador) e sua presa, a cochonilha-do-carmim (Dactylopius opuntiae) visando identificar cenários que conduzam ao combate da cochonilha. Esta é uma praga que tem atacado severamente as áreas de cultivo da palma forrageira, utilizada para alimentação de caprinos, ovinos e bovinos causando prejuízos econômicos, ambientais e sociais à região do semiárido nordestino. A destruição dos palmais devido ao ataque da cochonilha obriga os agricultores a se desfazerem dos seus rebanhos, migrarem para outras regiões ou devastar áreas da Caatinga para realizar novos plantios de palma. Diante do exposto, verifica-se a necessidade de prover suporte para uma cultura sustentável da palma forrageira, essencial para o gado leiteiro. Para fins de controle de pragas, órgãos como a Embrapa e o IPA têm recomendado o controle biológico da cochonilha através da introdução de seu inimigo natural (C. montrouzieri) que tem se mostrado eficiente no combate à praga. Neste trabalho foram realizadas simulações da evolução das populações de D. opuntiae e de C. montrouzieri utilizando as equações que representam o modelo Lotka-Volterra e suas variantes. Os resultados desta pesquisa têm tornado possível sugerir a quantidade de predadores a ser inserida no ambiente natural para buscar combater e controlar a infestação de pragas que tem causado danos à região do Semiárido do Nordeste. O uso do modelo não apenas possibilita sugerir a população de predadores para interagir com a espécie presa numa relação trófica, como também permite o monitoramento da conformidade da evolução populacional das espécies estudadas

dissertações

Lotka-Volterra, equações de

pragas agrícolas - controle biológico

animais predadores

dissertation

Lotka-Volterra equations

predatory animals

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

A systems-thinking based evaluation of predator conflict management on selected South African farms.

Snow, Timothy V.

January 2008

The backbone of this study was a systems thinking based analysis of the management and control of predators as practiced in South Africa since the advent of Europeans in 1652. The first bounties were introduced for a variety of animal species in 1656. Many species became labeled as vermin and were persecuted, often with the intention of eradication. A variety of controls have been applied, of which many have not kept pace with contemporary thinking or technology, and which by simply killing predators fail to address the crux of the issue of predator – livestock conflict. Many of the methods used cannot be applied to specifically remove an individual damage-causing animal. Considerable collateral ecological damage is inflicted by the killing of animals regarded as innocent bystanders. The objective of the analysis was to highlight the futility of temporary solutions which fail to resolve the conflict in the long term. These quick fixes frequently perpetuate an ecological imbalance which exacerbates the predator – livestock conflict. The analysis used raw data from a questionnaire survey conducted by the Poison Working Group of the Endangered Wildlife Trust (EWT-PWG) (2003). The EWT-PWG intended to assess pesticide abuse as toxicant for predators by farmers, and to identify all control methods used. The data forthcoming was Cartesian in nature and a fixed snap-shot in time. This study sought to identify the root cause of the conflict by applying systems thinking which added the dimension of cause and effect interrogation. The study categorised and described predator conflict management methods as lethal or preventative, and assessed each category in archetypal terms from a systems thinking perspective. It also sought to identify leverage points, or small changes which have profound effects, to stimulate a change in approach to humanpredator conflict management. In order to assess and illustrate the positive change brought about by application of preventative methods, a small group of farmers who had initiated changes in their predator conflict management over the five years subsequent to the EWTPWG survey were selected from the original group for reassessment. Through evaluation of predator conflict management methods from a systems thinking perspective, and by probing learning processes, the shortcomings or failure of inappropriate management responses to conflict situations were shown to exacerbate conflicts. Contrarily, it was illustrated that application of systems thinking and a process of addressing the root cause of conflict issues in predator conflict management, was a longer term solution. The study illustrated that application of long term proactive prevention and conflict avoidance principles, can offer long term solutions for predator conflict managers. / Thesis (M.Env.Dev.) - University of KwaZulu-Natal, Pietermaritzburg, 2008.

Predation (Biology)--South Africa.

Livestock--Losses--South Africa.

Wildlife pests--Control--South Africa.

Wildlife research--Methodology.

Theses--Environmental science.