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Natal dispersal, habitat selection and mortality of North Island Brown Kiwi (Apteryx mantelli) at the Moehau Kiwi Sanctuary, CoromandelForbes, Yuri January 2009 (has links)
The Moehau Kiwi Sanctuary is one of five sanctuaries established in 2000 and managed by the Department of Conservation. The objective of the sanctuaries is to protect the most endangered kiwi taxa, and increase kiwi survivorship. Operation Nest Egg (ONE) is a programme utilised by the Moehau Kiwi Sanctuary for artificially incubating abandoned Kiwi eggs and captive rearing chicks until they begin to show a gain in weight. ONE chicks were then released back onto Moehau or adjacent protected areas. Kiwi populations are declining on the mainland at an average of about 3% per year in areas where predators of kiwi are not controlled. The main cause for this decline is chick mortality due to predation by stoats (Mustela erminea). During natal dispersal kiwi are known to disperse significant distances of between 5–20 km, and this has influenced the size of management areas needed for the protection of kiwi (10,000 hectares). The type of forest-cover is an important element in determining where management areas are located, as kiwi has preferences for certain forest types over others. This study conducted at Moehau, Coromandel, on the North Island Brown Kiwi advances our knowledge of kiwi by examining differences in rates and distances of dispersal among chicks, sub-adults, non-territorial and territorial adults, as well as between genders. This study investigates kiwi selective use of roost site types, ground-cover types, forest types and physiographical features. Addressed in this study are differences in dispersal, habitat selection and mortality among age-classes and between genders over the months of the year, and across elevations. Comparisons between ONE and wild-reared kiwi dispersal and mortality are included. Data were collected between 2001 and 2008 from observations of kiwi located during daytime hours. The data recorded included the grid reference, elevation, ground-cover type, forest type, physiography, and the type of roost site. The sample size for this study was significantly larger than for any previous studies thus enabling a greater confidence in estimated dispersal rates and dispersal distances, habitat selection and factors relating to mortality. All wild-reared kiwi displayed dispersal and were not philopatric to their natal area. Dispersal distances were found to be further than previously estimated, with the net distance of natal dispersal differing among age-classes, from an average of 834m (SE +/- 131) for kiwi chicks to 7,553m (SE = +/- 1167) for non-territorial adults. Female sub-adult kiwi dispersed further (7,215m) than male sub-adult kiwi (4,226m) (p = 0.04). The time taken to travel one km during natal dispersal ranged from an average of 131days/km (SE = +/- 9) for chicks to 89 days/km (SE = +/- 13) for sub-adults. Habitat selection has been observed in other studies on kiwi but not specifically for Coromandel North Island Brown Kiwi, and selection for ground-cover types by kiwi when roosting on the surface has never been previously studied. Roost site selection of kiwi differed among age-classes (p <0.001), between gender (p <0.001), and across elevations (p <0.001). Female kiwi were found more often in surface roosts (64%) than hole roosts (32%), and male kiwi were found at similar frequencies in holes (46%) and on the surface (47%). Sub-adults used holes to a greater extent as elevation increased, and selected for sub-alpine forest over broadleaf forest (p <0.001). This study is the first to recognise that selection of ground-cover types by kiwi differs among age-classes (p <0.001). Kiwi chicks were more often found on the surface under dead fern fronds and debris (39%) than other ground-cover types. The mortality rate was highest in chicks (33%), with predation responsible for 60% of these deaths; conservation management techniques were responsible for a further 20% of deaths; the remaining 20% of deaths were due to natural or unknown causes. Summer (December-February) was the season in which 81% of kiwi chick deaths occurred. The high proportion of deaths from monitoring techniques and the use of radio-transmitters (22%) indicates improvements need to be made to current management practices. ONE chicks were found to disperse shorter distances and had a greater mortality rate than wild-reared chicks. Therefore, recommendations are made for changes to ONE management practices. Further recommendations are made for the enhancement of kiwi habitat that could reduce kiwi mortality, and for increasing the habitat available to kiwi, thereby potentially increasing population sizes and/or densities.
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Natal dispersal, habitat selection and mortality of North Island Brown Kiwi (Apteryx mantelli) at the Moehau Kiwi Sanctuary, CoromandelForbes, Yuri January 2009 (has links)
The Moehau Kiwi Sanctuary is one of five sanctuaries established in 2000 and managed by the Department of Conservation. The objective of the sanctuaries is to protect the most endangered kiwi taxa, and increase kiwi survivorship. Operation Nest Egg (ONE) is a programme utilised by the Moehau Kiwi Sanctuary for artificially incubating abandoned Kiwi eggs and captive rearing chicks until they begin to show a gain in weight. ONE chicks were then released back onto Moehau or adjacent protected areas. Kiwi populations are declining on the mainland at an average of about 3% per year in areas where predators of kiwi are not controlled. The main cause for this decline is chick mortality due to predation by stoats (Mustela erminea). During natal dispersal kiwi are known to disperse significant distances of between 5–20 km, and this has influenced the size of management areas needed for the protection of kiwi (10,000 hectares). The type of forest-cover is an important element in determining where management areas are located, as kiwi has preferences for certain forest types over others. This study conducted at Moehau, Coromandel, on the North Island Brown Kiwi advances our knowledge of kiwi by examining differences in rates and distances of dispersal among chicks, sub-adults, non-territorial and territorial adults, as well as between genders. This study investigates kiwi selective use of roost site types, ground-cover types, forest types and physiographical features. Addressed in this study are differences in dispersal, habitat selection and mortality among age-classes and between genders over the months of the year, and across elevations. Comparisons between ONE and wild-reared kiwi dispersal and mortality are included. Data were collected between 2001 and 2008 from observations of kiwi located during daytime hours. The data recorded included the grid reference, elevation, ground-cover type, forest type, physiography, and the type of roost site. The sample size for this study was significantly larger than for any previous studies thus enabling a greater confidence in estimated dispersal rates and dispersal distances, habitat selection and factors relating to mortality. All wild-reared kiwi displayed dispersal and were not philopatric to their natal area. Dispersal distances were found to be further than previously estimated, with the net distance of natal dispersal differing among age-classes, from an average of 834m (SE +/- 131) for kiwi chicks to 7,553m (SE = +/- 1167) for non-territorial adults. Female sub-adult kiwi dispersed further (7,215m) than male sub-adult kiwi (4,226m) (p = 0.04). The time taken to travel one km during natal dispersal ranged from an average of 131days/km (SE = +/- 9) for chicks to 89 days/km (SE = +/- 13) for sub-adults. Habitat selection has been observed in other studies on kiwi but not specifically for Coromandel North Island Brown Kiwi, and selection for ground-cover types by kiwi when roosting on the surface has never been previously studied. Roost site selection of kiwi differed among age-classes (p <0.001), between gender (p <0.001), and across elevations (p <0.001). Female kiwi were found more often in surface roosts (64%) than hole roosts (32%), and male kiwi were found at similar frequencies in holes (46%) and on the surface (47%). Sub-adults used holes to a greater extent as elevation increased, and selected for sub-alpine forest over broadleaf forest (p <0.001). This study is the first to recognise that selection of ground-cover types by kiwi differs among age-classes (p <0.001). Kiwi chicks were more often found on the surface under dead fern fronds and debris (39%) than other ground-cover types. The mortality rate was highest in chicks (33%), with predation responsible for 60% of these deaths; conservation management techniques were responsible for a further 20% of deaths; the remaining 20% of deaths were due to natural or unknown causes. Summer (December-February) was the season in which 81% of kiwi chick deaths occurred. The high proportion of deaths from monitoring techniques and the use of radio-transmitters (22%) indicates improvements need to be made to current management practices. ONE chicks were found to disperse shorter distances and had a greater mortality rate than wild-reared chicks. Therefore, recommendations are made for changes to ONE management practices. Further recommendations are made for the enhancement of kiwi habitat that could reduce kiwi mortality, and for increasing the habitat available to kiwi, thereby potentially increasing population sizes and/or densities.
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Brutaktivität und Verhalten der Kiwis (Apteryx mantelli) im Zoo Berlin / Breeding activity and behaviour of kiwis (Apteryx mantelli) at Berlin ZooGrauf, Coronula January 2009 (has links)
Der Streifenkiwi (Apteryx mantelli) kommt im Freiland nur auf der Nordinsel Neuseelands vor. Aufgrund des gefährdeten Bestands ist eine sich selbst erhaltene Zoopopulation wichtig. Kenntnisse des Verhaltens helfen, die Ansprüche der Tiere zu verstehen. Zudem können sie darüber Auskunft geben, inwiefern das Wohlbefinden eines Tieres gegeben ist.
Durch die Untersuchung der Brutaktivität sollte ein Überblick über den allgemeinen Verlauf der Brut gegeben und Aktivitätsmuster für den Berliner Hahn erarbeitet werden, um den Verlauf zukünftiger Bruten einschätzen und eventuell positiv beeinflussen zu können. Dazu kamen die Untersuchung der täglichen Aktivität einer Henne sowie Beobachtungen des Verhaltens der Tiere. Diese dienten der Bestandsaufnahme der gezeigten Verhaltensweisen und sollten zusammen mit der Aktivität die Grundlage zur Einschätzung bilden, ob die Ansprüche der Kiwis im Zoo Berlin erfüllt werden, und Hinweise zur Verbesserung der Haltung geben.
Die Brutaktivität des Hahnes konnte über drei Brutperioden hinweg detailliert dargestellt werden und zeigte, dass nicht nur innerhalb der Art sondern bei einem einzigen Tier unter ähnlichen Bedingungen die Variabilität so groß sein kann, dass sie für Vorhersagen über den Erfolg einer Brut nicht geeignet ist. Im Zusammenhang mit der Aktivität der Henne ließen sich keine Auffälligkeiten erkennen, die auf eine allgemeine Störung der Tiere schließen lassen oder für eine Beeinträchtigung der Brut verantwortlich gemacht werden könnten.
Soweit aus den Beobachtungen im Freiland geschlossen werden kann, scheinen die Kiwis im Zoo ein weitgehend natürliches Verhalten zu zeigen. Die Haltungsbedingungen scheinen den Ansprüchen der Tiere zu entsprechen.
Es ließen sich nur bedingt Strategien entwickeln, um die Bedingungen für die Brut und damit für die Nachzucht zu verbessern, da sich die Aktivität des Hahnes während der Brut von Jahr zu Jahr als unerwartet variabel erwies. Für ein weiteres Verständnis des Brutverhaltens und eine mögliche Verbesserung der Bedingungen wäre eine Untersuchung zum Einfluss verschiedener Umweltfaktoren auf die Brutaktivität des Hahnes wünschenswert. / The North Island brown kiwi (Apteryx mantelli) is an endemic inhabitant of New Zealand's North Island. A self-preserving population at the zoos is important because of endangerment in the wild. Knowledge about their behaviour can help to understand the animal's requirements. Additionally it can provide information on the extent to which their well-being is given in captivity.
Observing the breeding activity should lead to an overview of the brood's characteristics and the male's activity pattern in order to assess future broods and possibly influence them in a positive way. Additional observations about the female's daily activity and the male's and female's behaviour were conducted. This led to an inventory of their behavioural patterns. Together with the activity data, this provided a basis for assessing the well-being of the kiwis at Berlin Zoo and to optimize the keeping conditions.
The male's breeding activity was described in detail for three breeding periods. It was shown that the variability was very high under similar conditions, so predictions about the breeding success were feasible. In conjunction with the female's activity there were no indications implying an overall disturbance negatively influencing the animals or their breeding.
As far as it is known from observations in the wild, kiwis at the zoo seem to widely display natural behavioural patterns. The keeping conditions appear to meet the animal's demands.
There were only few strategies that could be developed for further optimization of the breeding conditions because of the high variability of the male's activity. For a deeper understanding of the breeding behaviour and possible improvement of the breeding and keeping conditions, additional research about the activity's dependency on environmental factors would be desirable.
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Characterisation of limb development and locomotion in the brown kiwi (Apteryx mantelli) : a thesis presented in partial fulfillment of the requirements for the degree of Master of Science in Zoology at Massey University, Palmerston North, New ZealandJones, Erica Anne January 2010 (has links)
This thesis covers broad topics concerning limb growth and development and their effects on locomotion in the brown kiwi (Apteryx mantelli). I begin by describing the morphological features of a collection of unknown-age wild kiwi embryos from early development to point of hatch. Using these features, I assign developmental stages to each embryo and compare the progress of development to the same-staged ostrich and chicken embryos. Measurements of the hindlimb, bill and crown-rump length are used to develop an aging scheme based on comparisons with the ostrich and the chicken. The ostrich model and chicken model create age predictions for the unknown aged kiwi embryos. One kiwi embryo was of known age and both models gave identical predictions for this marker embryo, but gave differing predictions for all other kiwi embryos. Using captive-reared kiwi chicks, I characterise hindlimb, bill and bodyweight growth from the time of hatch to 3 months of age. Growth patterns are very linear within this time period for all measurements but bodyweight. Female kiwi hatch with longer bills than males, but the growth of both sexes converges by the end of the 3-month period. Growth of bodyweight in the males slows earlier than in females. Bodyweight and bill length were then compared to a wild population of kiwi. Captive-reared chicks were found to hatch with shorter bills than the wild birds and to increase in bodyweight at a faster rate than wild birds. Rapid weight gain has been implicated in developmental limb deformities in other precocial and long-legged birds and has the potential to produce similar results in captive kiwi. I further studied the movement of the hindlimb during locomotion in two adults and one juvenile kiwi by filming them while they were walking on a treadmill. Kinematic parameters were measured from the video recordings and compared to overground parameters from another study. Similarity between the treadmill and overground locomotor parameters validates the use of a treadmill in studying kiwi locomotion. None of the birds achieved the theoretical transition from a walk to a run at a duty factor of 0.5. After normalising for size, the juvenile showed a longer stride length and lower stride frequency with increasing speed than the adults. Lateral head oscillations were observed during the stride cycle, which I propose having a sensory function as well as a biomechanical one.
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A study of home ranges, movement and activity patterns of Great Spotted Kiwi (Ateryx haastii) in the Hurunui Region, South Island, New ZealandKeye, Constanze January 2008 (has links)
All kiwi species (Apteryx spp.) have suffered serious decline since human arrival and are nowa-days threatened on the New Zealand mainland. One of the most elusive, and as a result least known among the different kiwi species, is the great spotted kiwi (Apteryx haastii). Hence, little is known about the current status of the remaining great spotted kiwi populations or their popu-lation dynamics. Three main ‘natural’ populations are found in Northwest Nelson, the Paparoa Range and in the Arthur’s Pass Hurunui district. In 2007, the Department of Conservation started a great spotted kiwi population dynamics study in the North Branch of the Hurunui, the area where this research project was conducted. Kiwi workers of the Department of Conserva-tion (Waimakariri area office) captured and VHF radio-tagged 11 kiwi between March and July 2007 in the North Branch and started to collect radio tracking and activity data. To improve this existing data set, 10 of the 11 birds were intensely radio tracked using triangulation and homing techniques during December 2007 to April 2008 for this Master’s research project. Estimated home-range sizes for great spotted kiwi in the North Branch varied between 19.59 ha and 35.41 ha, with a calculated mean of 29.3 ha for adult birds. The kiwi population in a defined research area of 60 km² in the Hurunui North Branch was estimated to be around 290 birds. The density for the whole area monitored by the Department of Conservation in the North Branch was esti-mated to be 2.25 pairs per km² plus subadults or in other terms 4.83 birds per km². These density estimates are much higher than results of earlier studies in the Arthurs Pass/Hurunui district. Movement plots of three bonded pairs showed that partners stayed in territories they shared. Nevertheless pairs shared only in 5% of days (n=38) shelters but regularly met during night and kept in contact via calls especially prior to meetings. Nightly travel distances varied between 488-1657 m. Furthermore, the most frequent travel distances covered per hour ranged between 50-150 m. The results of this study provide information for other kiwi researchers and raise ad-ditional questions for other projects regarding great spotted kiwi biology, behaviour and dynam-ics still need to be answered (e.g. habitat requirements). Finally, the results of this study alone are poor indicators of current population health, but they do provide a scientific baseline for any subsequent population monitoring for the great spotted kiwi population status and health in the North Branch area. If future monitoring shows that the great spotted kiwi population is at risk, suitable management actions can be applied and their success can be correctly evaluated.
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