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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
51

Effects of translocation on kokako (Callaeas cinerea wilsoni) song and its application to management : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Conservation Biology at Massey University, Palmerston North, New Zealand

Van Herpt, Sarah Michelle January 2009 (has links)
This thesis fills a research gap in our knowledge of kokako song by looking at how song evolves in multi-dialect areas. Kokako only exist in small remnant populations separated by large tracts of unsuitable land. Kokako are very poor flyers, only able to fly for approximately 100 metres at a time. In order to prevent inbreeding and a loss of genetic diversity in the remaining kokako populations, managers are carrying out translocations to establish new populations, maintain gene flow and prevent inbreeding. However, these translocations have the potential to be unsuccessful because kokako exhibit macrogeographic variation in their dialects, and tend not to breed with individuals who do not share the same dialect as them. If the purpose of the translocation is to enhance genetic diversity by having kokako from different areas breed then song is an important factor that must be dealt with. Song is extremely important to kokako for a number of reasons. Chiefly, it is hypothesised that song is their primary means of territory defence. A kokako gains all its resources from its territory, so it is imperative that they successfully defend it. Their duet song functions in territory defence, but also acts to form and maintain pair bonds. In order to try and address the problem that song causes in translocations I studied if and how song evolves in a multiple dialect area. I conducted research at Pukaha Mount Bruce, where there is a population of kokako originating from two different source populations, and thus two different dialects, Northern Mapara and Mangatutu. I looked at the Northern Mapara dialect, and recorded kokako belonging to three groups; kokako currently living in the source population, kokako that were translocated to Pukaha and kokako that were born at Pukaha. In order to determine how the song may be changing I looked at element repertoires, the levels of sharing between groups, the number of unique elements in repertoires and the syntactical and temporal characteristics of phrases. This study shows that translocation into multiple dialect areas can affect kokako song. Translocation did not affect the size of the kokako repertoire, but it seemed to affect the amount of sharing within and between different groups of kokako. Currently the level of sharing within the groups at Pukaha is lower than the level of sharing within the source Mapara population, indicating that the song may be diverging. There also seem to be more unique elements found at Pukaha, which in part explains the lack of sharing. There appears to be microgeographic variation at Pukaha, with birds clustered around the second (Mangatutu) dialect sharing less with the source population than do those kokako whose territories are lower down in the reserve. The phrases which are used are also evolving, with only one phrase truly shared among all groups. There are other phrases which show additions or deletions of elements, and so are evolving. The main change found in the phrases is the timing between elements, with six out of seven phrases examined showing changes. These results have repercussions for future kokako translocations, and the future of the Pukaha kokako. A low amount of phrase and element type sharing combined with changes of intra-phrase timing could lead to the Pukaha kokako’s inability to successfully defend their territories. This research shows how kokako song can give conservation managers information on the status of their populations in regards to interbreeding and raises questions which can be answered by further research, both at Pukaha and in other mixeddialect kokako populations.
52

Effects of translocation on kokako (Callaeas cinerea wilsoni) song and its application to management : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Conservation Biology at Massey University, Palmerston North, New Zealand

Van Herpt, Sarah Michelle January 2009 (has links)
This thesis fills a research gap in our knowledge of kokako song by looking at how song evolves in multi-dialect areas. Kokako only exist in small remnant populations separated by large tracts of unsuitable land. Kokako are very poor flyers, only able to fly for approximately 100 metres at a time. In order to prevent inbreeding and a loss of genetic diversity in the remaining kokako populations, managers are carrying out translocations to establish new populations, maintain gene flow and prevent inbreeding. However, these translocations have the potential to be unsuccessful because kokako exhibit macrogeographic variation in their dialects, and tend not to breed with individuals who do not share the same dialect as them. If the purpose of the translocation is to enhance genetic diversity by having kokako from different areas breed then song is an important factor that must be dealt with. Song is extremely important to kokako for a number of reasons. Chiefly, it is hypothesised that song is their primary means of territory defence. A kokako gains all its resources from its territory, so it is imperative that they successfully defend it. Their duet song functions in territory defence, but also acts to form and maintain pair bonds. In order to try and address the problem that song causes in translocations I studied if and how song evolves in a multiple dialect area. I conducted research at Pukaha Mount Bruce, where there is a population of kokako originating from two different source populations, and thus two different dialects, Northern Mapara and Mangatutu. I looked at the Northern Mapara dialect, and recorded kokako belonging to three groups; kokako currently living in the source population, kokako that were translocated to Pukaha and kokako that were born at Pukaha. In order to determine how the song may be changing I looked at element repertoires, the levels of sharing between groups, the number of unique elements in repertoires and the syntactical and temporal characteristics of phrases. This study shows that translocation into multiple dialect areas can affect kokako song. Translocation did not affect the size of the kokako repertoire, but it seemed to affect the amount of sharing within and between different groups of kokako. Currently the level of sharing within the groups at Pukaha is lower than the level of sharing within the source Mapara population, indicating that the song may be diverging. There also seem to be more unique elements found at Pukaha, which in part explains the lack of sharing. There appears to be microgeographic variation at Pukaha, with birds clustered around the second (Mangatutu) dialect sharing less with the source population than do those kokako whose territories are lower down in the reserve. The phrases which are used are also evolving, with only one phrase truly shared among all groups. There are other phrases which show additions or deletions of elements, and so are evolving. The main change found in the phrases is the timing between elements, with six out of seven phrases examined showing changes. These results have repercussions for future kokako translocations, and the future of the Pukaha kokako. A low amount of phrase and element type sharing combined with changes of intra-phrase timing could lead to the Pukaha kokako’s inability to successfully defend their territories. This research shows how kokako song can give conservation managers information on the status of their populations in regards to interbreeding and raises questions which can be answered by further research, both at Pukaha and in other mixeddialect kokako populations.
53

Effects of translocation on kokako (Callaeas cinerea wilsoni) song and its application to management : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Conservation Biology at Massey University, Palmerston North, New Zealand

Van Herpt, Sarah Michelle January 2009 (has links)
This thesis fills a research gap in our knowledge of kokako song by looking at how song evolves in multi-dialect areas. Kokako only exist in small remnant populations separated by large tracts of unsuitable land. Kokako are very poor flyers, only able to fly for approximately 100 metres at a time. In order to prevent inbreeding and a loss of genetic diversity in the remaining kokako populations, managers are carrying out translocations to establish new populations, maintain gene flow and prevent inbreeding. However, these translocations have the potential to be unsuccessful because kokako exhibit macrogeographic variation in their dialects, and tend not to breed with individuals who do not share the same dialect as them. If the purpose of the translocation is to enhance genetic diversity by having kokako from different areas breed then song is an important factor that must be dealt with. Song is extremely important to kokako for a number of reasons. Chiefly, it is hypothesised that song is their primary means of territory defence. A kokako gains all its resources from its territory, so it is imperative that they successfully defend it. Their duet song functions in territory defence, but also acts to form and maintain pair bonds. In order to try and address the problem that song causes in translocations I studied if and how song evolves in a multiple dialect area. I conducted research at Pukaha Mount Bruce, where there is a population of kokako originating from two different source populations, and thus two different dialects, Northern Mapara and Mangatutu. I looked at the Northern Mapara dialect, and recorded kokako belonging to three groups; kokako currently living in the source population, kokako that were translocated to Pukaha and kokako that were born at Pukaha. In order to determine how the song may be changing I looked at element repertoires, the levels of sharing between groups, the number of unique elements in repertoires and the syntactical and temporal characteristics of phrases. This study shows that translocation into multiple dialect areas can affect kokako song. Translocation did not affect the size of the kokako repertoire, but it seemed to affect the amount of sharing within and between different groups of kokako. Currently the level of sharing within the groups at Pukaha is lower than the level of sharing within the source Mapara population, indicating that the song may be diverging. There also seem to be more unique elements found at Pukaha, which in part explains the lack of sharing. There appears to be microgeographic variation at Pukaha, with birds clustered around the second (Mangatutu) dialect sharing less with the source population than do those kokako whose territories are lower down in the reserve. The phrases which are used are also evolving, with only one phrase truly shared among all groups. There are other phrases which show additions or deletions of elements, and so are evolving. The main change found in the phrases is the timing between elements, with six out of seven phrases examined showing changes. These results have repercussions for future kokako translocations, and the future of the Pukaha kokako. A low amount of phrase and element type sharing combined with changes of intra-phrase timing could lead to the Pukaha kokako’s inability to successfully defend their territories. This research shows how kokako song can give conservation managers information on the status of their populations in regards to interbreeding and raises questions which can be answered by further research, both at Pukaha and in other mixeddialect kokako populations.
54

The impact of isolation from mammalian predators on the anti-predator behaviours of the North Island robin (Petroica longipes) : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Conservation Biology at Massey University, Auckland, New Zealand

Whitwell, Sarah Margaret January 2009 (has links)
Conservation in New Zealand has begun to focus heavily on the restoration of degraded mainland ecosystems and the reintroduction of native species that have become locally extinct. In many cases the individuals that are selected for reintroduction are harvested from ‘mammal-free’ offshore islands. This thesis examines the effects of isolation from mammalian predators on the predator avoidance behaviours and predator recognition abilities of New Zealand birds using the North Island robin as a model. It also investigates whether any effects of isolation from mammalian predators has a lasting impact on mainland populations founded by individuals from offshore islands. Nest site selection behaviours were compared across three populations that are exposed to different suites of predators and have differing translocation histories; Benneydale, Tiritiri Matangi and Wenderholm. Point height intercept and point-centred quarter surveys were used to compare habitat availability between the sites and to compare nest sites with the available habitat. Eight nest characteristic variables were also compared across the three sites using a principle component analysis. Benneydale nests were located higher in the trees and were more concealed than nests at the other two sites. Nests on Tiritiri Matangi were supported by large numbers of thin branches and were located toward the periphery of the nest tree. Unfortunately these differences are very difficult to interpret due to a high degree of variation in the habitat types present at the three sites. The anti-predator behaviours initiated in response to a model stoat, model morepork and control were used to test the ability of nesting robins to recognise the threat that each of these treatments might pose to nest success. Behavioural variables were compared between Benneydale, Tiritiri Matangi and Wenderholm using a response intensity scoring system and a principle component analysis. The results indicated that isolation from mammalian predators on Tiritiri Matangi has suppressed the ability of robins on the island to recognise the predatory threat posed by a stoat. They also suggest that the intense mammal control carried out at Wenderholm may have inhibited the ability of local robins to produce strong anti-predator responses when faced with a stoat.
55

The impact of isolation from mammalian predators on the anti-predator behaviours of the North Island robin (Petroica longipes) : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Conservation Biology at Massey University, Auckland, New Zealand

Whitwell, Sarah Margaret January 2009 (has links)
Conservation in New Zealand has begun to focus heavily on the restoration of degraded mainland ecosystems and the reintroduction of native species that have become locally extinct. In many cases the individuals that are selected for reintroduction are harvested from ‘mammal-free’ offshore islands. This thesis examines the effects of isolation from mammalian predators on the predator avoidance behaviours and predator recognition abilities of New Zealand birds using the North Island robin as a model. It also investigates whether any effects of isolation from mammalian predators has a lasting impact on mainland populations founded by individuals from offshore islands. Nest site selection behaviours were compared across three populations that are exposed to different suites of predators and have differing translocation histories; Benneydale, Tiritiri Matangi and Wenderholm. Point height intercept and point-centred quarter surveys were used to compare habitat availability between the sites and to compare nest sites with the available habitat. Eight nest characteristic variables were also compared across the three sites using a principle component analysis. Benneydale nests were located higher in the trees and were more concealed than nests at the other two sites. Nests on Tiritiri Matangi were supported by large numbers of thin branches and were located toward the periphery of the nest tree. Unfortunately these differences are very difficult to interpret due to a high degree of variation in the habitat types present at the three sites. The anti-predator behaviours initiated in response to a model stoat, model morepork and control were used to test the ability of nesting robins to recognise the threat that each of these treatments might pose to nest success. Behavioural variables were compared between Benneydale, Tiritiri Matangi and Wenderholm using a response intensity scoring system and a principle component analysis. The results indicated that isolation from mammalian predators on Tiritiri Matangi has suppressed the ability of robins on the island to recognise the predatory threat posed by a stoat. They also suggest that the intense mammal control carried out at Wenderholm may have inhibited the ability of local robins to produce strong anti-predator responses when faced with a stoat.
56

Effects of translocation on kokako (Callaeas cinerea wilsoni) song and its application to management : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Conservation Biology at Massey University, Palmerston North, New Zealand

Van Herpt, Sarah Michelle January 2009 (has links)
This thesis fills a research gap in our knowledge of kokako song by looking at how song evolves in multi-dialect areas. Kokako only exist in small remnant populations separated by large tracts of unsuitable land. Kokako are very poor flyers, only able to fly for approximately 100 metres at a time. In order to prevent inbreeding and a loss of genetic diversity in the remaining kokako populations, managers are carrying out translocations to establish new populations, maintain gene flow and prevent inbreeding. However, these translocations have the potential to be unsuccessful because kokako exhibit macrogeographic variation in their dialects, and tend not to breed with individuals who do not share the same dialect as them. If the purpose of the translocation is to enhance genetic diversity by having kokako from different areas breed then song is an important factor that must be dealt with. Song is extremely important to kokako for a number of reasons. Chiefly, it is hypothesised that song is their primary means of territory defence. A kokako gains all its resources from its territory, so it is imperative that they successfully defend it. Their duet song functions in territory defence, but also acts to form and maintain pair bonds. In order to try and address the problem that song causes in translocations I studied if and how song evolves in a multiple dialect area. I conducted research at Pukaha Mount Bruce, where there is a population of kokako originating from two different source populations, and thus two different dialects, Northern Mapara and Mangatutu. I looked at the Northern Mapara dialect, and recorded kokako belonging to three groups; kokako currently living in the source population, kokako that were translocated to Pukaha and kokako that were born at Pukaha. In order to determine how the song may be changing I looked at element repertoires, the levels of sharing between groups, the number of unique elements in repertoires and the syntactical and temporal characteristics of phrases. This study shows that translocation into multiple dialect areas can affect kokako song. Translocation did not affect the size of the kokako repertoire, but it seemed to affect the amount of sharing within and between different groups of kokako. Currently the level of sharing within the groups at Pukaha is lower than the level of sharing within the source Mapara population, indicating that the song may be diverging. There also seem to be more unique elements found at Pukaha, which in part explains the lack of sharing. There appears to be microgeographic variation at Pukaha, with birds clustered around the second (Mangatutu) dialect sharing less with the source population than do those kokako whose territories are lower down in the reserve. The phrases which are used are also evolving, with only one phrase truly shared among all groups. There are other phrases which show additions or deletions of elements, and so are evolving. The main change found in the phrases is the timing between elements, with six out of seven phrases examined showing changes. These results have repercussions for future kokako translocations, and the future of the Pukaha kokako. A low amount of phrase and element type sharing combined with changes of intra-phrase timing could lead to the Pukaha kokako’s inability to successfully defend their territories. This research shows how kokako song can give conservation managers information on the status of their populations in regards to interbreeding and raises questions which can be answered by further research, both at Pukaha and in other mixeddialect kokako populations.
57

Effects of translocation on kokako (Callaeas cinerea wilsoni) song and its application to management : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Conservation Biology at Massey University, Palmerston North, New Zealand

Van Herpt, Sarah Michelle January 2009 (has links)
This thesis fills a research gap in our knowledge of kokako song by looking at how song evolves in multi-dialect areas. Kokako only exist in small remnant populations separated by large tracts of unsuitable land. Kokako are very poor flyers, only able to fly for approximately 100 metres at a time. In order to prevent inbreeding and a loss of genetic diversity in the remaining kokako populations, managers are carrying out translocations to establish new populations, maintain gene flow and prevent inbreeding. However, these translocations have the potential to be unsuccessful because kokako exhibit macrogeographic variation in their dialects, and tend not to breed with individuals who do not share the same dialect as them. If the purpose of the translocation is to enhance genetic diversity by having kokako from different areas breed then song is an important factor that must be dealt with. Song is extremely important to kokako for a number of reasons. Chiefly, it is hypothesised that song is their primary means of territory defence. A kokako gains all its resources from its territory, so it is imperative that they successfully defend it. Their duet song functions in territory defence, but also acts to form and maintain pair bonds. In order to try and address the problem that song causes in translocations I studied if and how song evolves in a multiple dialect area. I conducted research at Pukaha Mount Bruce, where there is a population of kokako originating from two different source populations, and thus two different dialects, Northern Mapara and Mangatutu. I looked at the Northern Mapara dialect, and recorded kokako belonging to three groups; kokako currently living in the source population, kokako that were translocated to Pukaha and kokako that were born at Pukaha. In order to determine how the song may be changing I looked at element repertoires, the levels of sharing between groups, the number of unique elements in repertoires and the syntactical and temporal characteristics of phrases. This study shows that translocation into multiple dialect areas can affect kokako song. Translocation did not affect the size of the kokako repertoire, but it seemed to affect the amount of sharing within and between different groups of kokako. Currently the level of sharing within the groups at Pukaha is lower than the level of sharing within the source Mapara population, indicating that the song may be diverging. There also seem to be more unique elements found at Pukaha, which in part explains the lack of sharing. There appears to be microgeographic variation at Pukaha, with birds clustered around the second (Mangatutu) dialect sharing less with the source population than do those kokako whose territories are lower down in the reserve. The phrases which are used are also evolving, with only one phrase truly shared among all groups. There are other phrases which show additions or deletions of elements, and so are evolving. The main change found in the phrases is the timing between elements, with six out of seven phrases examined showing changes. These results have repercussions for future kokako translocations, and the future of the Pukaha kokako. A low amount of phrase and element type sharing combined with changes of intra-phrase timing could lead to the Pukaha kokako’s inability to successfully defend their territories. This research shows how kokako song can give conservation managers information on the status of their populations in regards to interbreeding and raises questions which can be answered by further research, both at Pukaha and in other mixeddialect kokako populations.
58

Stop and smell the weeds: an approach to attract and conserve predatory coccinellids in tomato / Pare e cheire as plantas daninhas: uma abordagem para atrair e conservar coccinelídeos predadores em tomate

Porto, Morgana Maria Fonseca 24 July 2013 (has links)
Made available in DSpace on 2015-03-26T13:30:47Z (GMT). No. of bitstreams: 1 texto completo.pdf: 1787058 bytes, checksum: 9eecdb20460409c66b549cfa0f842314 (MD5) Previous issue date: 2013-07-24 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / O manejo de habitat, uma abordagem do controle biológico conservativo, o tem como objetivo alterar habitats através da manipula ção de recursos de origem vegetal na paisagem para melhorar a disponibilidade de recursos para os inimigos naturais. As plantas daninhas têm sido amplamente usadas para esse fim em agroecossistemas devido ao seu potencial de fornecer recursos al- ternativos para os inimigos naturais, mesmo quando as densidades de pragas são baixas. No entanto, há uma escassez de informações relativas aos recursos fornecidos por plantas daninhas e suas interações com os inimigos naturais. Para que o manejo de habitat seja uma prática funcional, ́é necessário o conhecimento detalhado do comportamento de forrageamento e da capacidade sensorial de inimigos naturais. A fim de contribuir para esse entendimento, estudei a atratividade e os efeitos de recursos fornecidos pela planta daninha Bidens pilosa, conhecida como picão-preto, utilizando plantas de tomate como a cultura principal, para o predador generalista Cycloneda sanguinea. As fêmeas de C. sanguinea são capazes de reconhecer os sinais químicos do picão-preto, mas elas não discriminam entre os estímulos do picão-preto ou das plantas de tomate. No campo, a ocorrência de C. sanguinea no picão-preto não depende da presença de pulgoẽs e isso só é evolutivamente estável a se a joaninha obtém vantagens da visita na planta. Os recursos alternativos fornecidos pelo picão-preto e pelas plantas de tomate, em conjunto ou não, não afetou a taxa de oviposição de C. sanguinea, tanto na presença quanto na ausência de pulgões. Entretanto, uma dieta com apenas os recursos fornecidos pelas plantas testadas aqui não é suficiente para promover a a sua oviposição. Porém, estes recursos podem aumentar a sobrevivência de casais de joaninhas adultas de forma significativa. A sobrevivência de C. e sanguinea foi significativamente maior na combinação picão-preto e plantas de tomate do que no tomate sozinho, mas não foi diferente do picão-preto somente. Concluindo, C. sanguinea pode usar pistas químicas do picão-preto durante o forrageamento e os recursos oferecidos pela planta podem permitir que este predador persista no campo quando os recursos-presa são escassos, o que pode levar a uma melhora na sua eficiência como agente de controle e biológico. / Habitat management is a conservation biological control approach that aims to alter habitats through manipulating plant-based resources in the landscape to increase the availability of resources for natural enemies. Weed commu- nities have been adopted for habitat management in agroecosystems due to their potential to supply food resources to natural enemies, even when pest densities are low. However, there is a paucity of information pertaining to the resources provided by non-crop weeds and their interactions with natural enemies. To make the management of non-crop weeds a functional practice, detailed knowledge of the behavior and sensory ability of natural enemies is necessary. In order to contribute to such understanding, I studied the attrac- tiveness and the effects of resources provided by the weed hairy beggarticks (non-crop), using tomato plant as the main crop, on the generalist predator Cycloneda sanguinea. I found that C. sanguinea females are able to recognize cues from hairy beggarticks but they do not discriminate between cues from hairy beggarticks or tomato plants. In the field, the occurrence of C. san- guinea on hairy beggarticks plants does not depend on the presence of aphids and it is only evolutionary stable if the ladybird gains advantage from visiting the plant. The alternative resources provided by the hairy beggarticks and tomato plants, either together or separate, did not affect the oviposition rate of C. sanguinea, both in the presence and absence of aphid prey. Hence, a diet with only the resources provided by the plants is not enough to promote their oviposition. Nevertheless, these resources were found to increase adult survivorship significantly. Survival of C. sanguinea was significantly higher on the combination of tomato plants plus hairy beggarticks than on tomato plants alone but was not different from hairy beggarticks alone. Concluding, C. sanguinea can use cues from hairy beggarticks when foraging and the re- sources offered by plants may allow them to persist in the field when prey resources are scarce which might improve its efficiency as biological control agent.
59

Bat exploitation of Sitka Spruce plantations : impacts of management on bats and nocturnal invertebrates

Kirkpatrick, Lucinda January 2016 (has links)
Plantations are widespread throughout temperate regions, and the area of plantation land cover is predicted to get larger in the future. Interest in ensuring sustainable plantation management is also growing, as it is increasingly recognised that productive areas should play a role in biodiversity conservation. Plantation landscapes can comprise the majority of forested cover in some countries, but taxon-specific guidance can be lacking, due to plantations often being under surveyed. Therefore, despite substantial incentives existing to ensure that plantations meet various ecological criteria, plantation managers lack the information necessary to implement effective management plans. Many bat species have undergone widespread declines in recent decades, attributed to habitat loss and fragmentation, particularly of forested habitat. In many temperate countries, historical deforestation has resulted in very low native tree cover, and subsequently, considerable replanting with non-native commercial coniferous plantations has taken place. Species specific habitat surveys have often demonstrated avoidance of conifer plantations by bats, which has been attributed to a lack of roosts and low invertebrate prey abundance. Furthermore, widespread lepidopteran declines have been partly attributed to afforestation with non-native conifer, but moth associations with commercial coniferous plantations are usually only studied for pest species. Bats present a particular challenge in plantation landscapes; tree cover is important to many species to a greater or lesser extent, and in the United Kingdom, destruction of a roost site is illegal, regardless of whether it was deliberate or accidental. However, the extent to which bats associate with non-native commercial plantations is relatively unexplored. This is the first study to explicitly test bat associations with Picea sitchensis plantations (using acoustic detectors, trapping and radio tracking), and shows that, contrary to expectations, they may be an important habitat for breeding populations of Pipistrellus spp., particularly P. pygmaeus. High levels of activity were recorded for both P. pygmaeus and P. pipistrellus, despite little difference in dipteran abundance between different stand types, both species preferentially foraged in felled or less dense stands. This suggests that bats preferentially forage in areas with less acoustic and physical clutter, which will increase foraging efficiency. The impacts of felling in non-native commercial coniferous plantations on foraging activity was tested, for the first time, using a Before – After – Control – Impact experimental design. Bat activity (specifically P. pipistrellus and Nyctalus) increased after felling, particularly in smaller stands. In contrast felling had significant, negative impacts on moth abundance, species richness and diversity, and these effects remain after constraining for functional trait similarity. Reductions in richness and diversity in response to felling were similarly large for both rare and abundant species. Therefore, while bats may benefit from clear fell practices, albeit as long as the size of patches is small, moth populations could benefit from a shift towards other forestry methods, iv such as continuous cover forestry. These results also have implications for the recent, but increasing practice of siting wind turbines in commercial coniferous plantations, as pre-installation preparation involves clearing small patches of forest which may attract foraging bats; post felling monitoring should be carried out to examine potential impacts on bat populations. The presence of broadleaf trees in and around plantations significantly increased moth richness, mostly through increased occurrence of rare species. Broadleaf woodlands (defined as land spanning more than 0.5 ha, with trees higher than 5m and a combined cover of shrubs, bushes and trees above 10%), also had higher functional redundancy than plantation sites. For a diverse moth population to persist in plantation landscapes, preserving remnant patches of broadleaf trees is essential. There was little difference in bat activity between broadleaf woodlands and plantation sites. However, bat abundance, particularly that of reproductively active females, was greater in broadleaf sites compared to plantations. This was particularly true for Myotis and Nyctalus spp., very few of which were trapped in commercial plantations. Therefore, although reproductively active female Myotis bats are present in the surrounding landscape, they do not appear to associate with plantations themselves. This may reflect a lack of roost availability; both P. pygmaeus and P. pipistrellus preferentially form large maternity colonies in buildings, but for Myotis and Nyctalus spp. which roost switch regularly and often use trees, it is unlikely many suitable roosts exist within the plantations themselves. Many substantial P. pygmaeus maternity colonies were identified in and around Galloway forest, with some holding more than 500 individuals. All maternity colonies were in buildings, and most inhabited (and one uninhabited) buildings within the plantation contained a roost. Although females occasionally used old or dead deciduous trees as temporary roosts, there was no evidence of roosting in crop trees such as P. sitchensis. During this study, the Forestry Commission installed 36 bat boxes; within 6 months over 90% had been used, with a number of harems found inside. This fast uptake compared with bat use of boxes in other locations reflects the paucity of appropriate structures for either roost or harem use in commercial plantations. Twelve bats were captured while foraging, tagged with small radio transmitters, and followed for between 2 and 6 nights during 2014 and 2015. All but one tagged female preferentially foraged within the plantation, with individuals selecting equally riparian habitats and felled stands. Tagged females which roosted furthest from the plantation had the largest home ranges; one individual flew nearly 40km each night to reach foraging areas distant from her roost, suggesting that the food availability within the plantation was sufficient to render such a long journey energetically viable. v These results have important implications for bat populations in and around commercial coniferous plantations. Far from being avoided by bats, plantation landscapes may constitute an important habitat type for both P. pygmaeus and P. pipistrellus, likely due to the high abundance of nematoceran diptera in plantation woodlands. Furthermore, plantation forests support a similar richness of moth species to urban and agricultural woodlands, including a number of declining species of special conservation concern. A list of management recommendations to benefit both bat and moth populations in commercial plantations is presented at the end of this thesis.
60

Intensification de l'agriculture biologique : conséquences sur la régulation des phytophages en vergers de pommiers / Intensification of organic farming : impact on the regulation of phytophagous in apple orchards

Marliac, Gaëlle 20 November 2014 (has links)
L’agriculture biologique (AB) est classiquement comparée à l’agriculture conventionnelle. Elle est alors souvent considérée comme plus favorable à la biodiversité que l’agriculture conventionnelle, même si certaines études montrent un effet négatif ou une absence d’effet de l’AB par rapport à l’agriculture conventionnelle pour certains taxons(Bengtsson et al. 2005; Garratt et al. 2011; Hole et al. 2005; Winqvist et al. 2011). Cela peut s’expliquer par le fait que l’AB ne se différencie pas seulement par le remplacement des produits phytosanitaires de synthèse par des produits autorisés en agriculture biologique mais aussi par la mise en œuvre d’autres pratiques comme l’implantation d’un couvert végétal.L’AB dispose d’une large gamme de pratiques visant à limiter les ravageurs et/ou à favoriser leur contrôle biologique via leurs ennemis naturels. Les objectifs de cette thèse sont :(i) d’établir un état des lieux de la diversité des stratégies de protection mises en place parles producteurs en AB pour lutter contre les deux ravageurs majeurs en vergers de pommiers,le carpocapse des pommes et le puceron cendré et d’identifier les pratiques permettant une diminution de l’usage des pesticides ;(ii) d’évaluer si ces pratiques ont un effet sur les communautés des prédateurs généralistes présentes dans la couronne ;(iii) d’estimer le rôle fonctionnel des prédateurs généralistes en mesurant la fonction de prédation en vergers de pommiers. En prenant comme cas d’étude les vergers de pommiers du Sud-Est de la France, nous avons dans un premier temps réalisé un état des lieux de la diversité des pratiques de protection mises en place en agriculture biologique à l’échelle de l’exploitation. Suite à une série d’enquêtes chez les producteurs, quatre stratégies de protection avec différentes combinaisons de pratiques ont été définies. Un suivi des ennemis naturels dans des parcelles types a permis de mettre en évidence des communautés d’ennemis naturels différentes selon les stratégies de protection.Dans un deuxième temps, nous avons étudié le lien entre la diversité des prédateurs généralistes et la régulation biologique (ici, la prédation des œufs de carpocapse). Cette étude a été réalisée sur 20 parcelles en AB caractérisées par différents usages de pesticides biologiques. Cette étude a permis de mettre en évidence des taux de prédation différents et une variabilité des communautés d’ennemis naturels selon les parcelles et d’identifier les ennemis naturels corrélés à la prédation des œufs. Dans un troisième temps, notre étude s'est portée sur une modification particulière de l'habitat, l’enherbement de l’inter-rang, une pratique mise en place par les producteurs et facile à gérer, notamment via l'intensité de fauche. Nous avons voulu déterminer, à l’aide d’une approche expérimentale en verger, si cette modification était un levier efficace pour augmenter l'abondance et la diversité des ennemis naturels et donc la régulation, soit au niveau de la canopée (prédation des œufs de carpocapse) soit au niveau du sol (prédation des larves de carpocapse). La communauté d’ennemis naturels dans l’arbre est apparue peu impactée par la hauteur d’enherbement ; seul Forficula pubescens est plus abondant lorsque le couvert végétal est haut (1m20). La prédation des œufs est quant à elle plus forte, aux mois de juillet et août, lorsque le couvert végétal est ras (5cm). La prédation des larves n’est pas différente selon la hauteur du couvert végétal.Cette thèse a permis de mettre en évidence une diversité des stratégies de protection en vergers de pommiers en AB. Elle a montré une variabilité des communautés d’ennemis naturels au sein de l’AB. Elle illustre la complexité du lien entre pratiques agricoles, ennemis naturels et prédation des bioagresseurs. / Organic agriculture is assumed to achieve more sustainable practices by reducing the negativeenvironmental impacts of intensive agriculture, such as biodiversity decline. While positivelinks between organic agriculture and natural enemy abundance and/or diversity have oftenbeen reported, this was not always the case (little or no difference between the systems, orsometimes in favor of the conventional system) and it appears to be variable depending on thespecies considered (Bengtsson et al. 2005; Garratt et al. 2011; Hole et al. 2005; Winqvist et al.2011). The benefits to biodiversity from organic agriculture are likely to stem primarily fromprohibition of synthetic chemicals but also from the adoption of various other managementpractices (cultural practices, ground cover management, presence of hedgerows). Indeed,organic management strategies are thus defined by a combination of different practices(Zehnder et al. 2007) that can have a different effect on the natural enemy community (Hole etal. 2005; Simon et al. 2007).The objectifs of this thesis are :(i) caracterized the diversity of crop protection strategies on organic agriculture andidentifed the practices led to reduced pesticide usage;(ii) investigated whether these practices have an impact on the natural enemy abundanceand diversity in the canopy;(iii) assess the natural enemy predation activity in apple orchard.First, we identified four crop protection strategies, which were characterized by aspecific combination of different types of practices. We showed that natural enemycommunities and their efficacy were influenced by these strategies.Second, we examined the relationships between the abundance of generalist predatorsand the level of pest control under natural conditions (predation of codling moth eggs). Weused a set of organically farmed commercial orchards with various protection strategies andshowed that the predation rate and the natural enemy communities were different but variableamong the organic apple orchard. We identified the natural enemy correlated with thepredation rate.!Finally, we managed the ground cover and compared the effect of three heights, tall(no cutting), medium (mean height of 20 cm) and short (mean height of 5 cm), of aspontaneous grass cover in an experimental orchard on natural enemy abundance andpredation rates on the canopy (predation of codling moth egg) and on the ground (predation ofcodling moth larvae). The natural enemy community on the canopy was little impact by theheight of the ground cover ; only Forficula pubescens was more abundant in the no cuttingthan in the short ground cover. The egg predation was higher in the short ground cover than inthe two other modalities. The larvae predation was not impacted by the ground cover height.We caracterized a diversity of crop protection strategy on organic agriculture in appleorchard. We identified a variability of the natural enemy communyties on organic appleorchard. This thesis illustrated the complexity of the relationship between agriculturalpractices, natural enemies and predation of pests.

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