Your search keyword '"Munks, Sarah"' showing total 5 results

1. Research supporting restoration aiming to make a fragmented landscape 'functional' for native wildlife.

Author

Jones, Menna E., Bain, Glen C., Hamer, Rowena P., Proft, Kirstin M., Gardiner, Riana Z., Dixon, Kirsty J., Kittipalawattanapol, Kawinwit, Zepeda de Alba, Ana L., Ranyard, Claire E., Munks, Sarah A., Barmuta, Leon A., Burridge, Christopher P., Johnson, Christopher N., and Davidson, Neil J.

Subjects

FRAGMENTED landscapes, CATS, FERAL cats, WILDLIFE recovery, FOREST birds, TEMPERATE forests

Abstract

Summary: Temperate woodlands are amongst the most threatened ecosystems in Australia because the land on which they occur is highly suited to agriculture. Two hundred years of habitat loss and fragmentation in the Midlands agricultural region in Tasmania have led to widespread declines in native vertebrates and landscapes with populations of predators including feral Cat (Felis catus) and the native‐invasive Noisy Miner (Manorina melanocephala). Ecologists at the University of Tasmania co‐designed mechanistic animal‐centric research on mammals and birds in the Midlands to inform vegetation restoration carried out by Greening Australia that would support the recovery of wildlife species. We used species‐appropriate technologies to assess the decisions made by individual animals to find food and shelter and to disperse across this fragmented landscape, and linked these, together with patterns of occupancy, across multiple spatial and temporal scales. We focussed on a native (Spotted‐tailed Quoll, Dasyurus maculatus) and an invasive (feral Cat, Felis catus) carnivore, a woodland‐specialist herbivore (Eastern Bettong, Bettongia gaimardi) and woodland birds including the native‐invasive Noisy Miner. Our results, which show intense predatory and competitive pressure of cats and populations of Noisy Miner on native fauna, highlight how grounding restoration in the context of ecological interactions is essential to success in managing the impacts of invasive species in restored landscapes. Successful restoration will require innovative approaches in plantings and field experimentation with artificial refuges, to reduce habitat suitability for the Noisy Miner and cats and provide refuges for native mammals and birds to live in the landscape where cats also occur. Our results emphasise the significance of structural complexity of restoration plantings for supporting the recolonisation and persistence of native fauna. At large landscape‐scale, we demonstrate the importance of retaining small habitat elements, including ancient paddock trees, pivot irrigation corners and small, degraded remnants, in facilitating occupancy and dispersal and, therefore, persistence of wild animals across this agricultural region. [ABSTRACT FROM AUTHOR]

Published

2021

2. A proposed strategy for maintaining mature forest habitat in Tasmania's wood production forests.

Author

Koch, Amelia and Munks, Sarah

Subjects

*FOREST management, *FOREST ecology, *FOREST biodiversity, *FOREST conservation, *TREE cavities

Abstract

Summary: Mature forests have structural habitat features that can take hundreds of years to develop, and large reserves alone are unlikely to ensure conservation of the species that rely on these features. This paper outlines a proposed new approach to managing mature forest features, the ‘mature habitat management approach’, in areas outside of reserves. The objective was to maintain a network of current and future mature forest habitat distributed across the landscape. The approach is designed to complement the existing reserve network and management actions and is tenure‐blind. Spatial information on the availability of mature forest habitat at the local (1‐km radius) and landscape (5‐km radius) scales is used for decisions on retention within a 1‐km radius of a harvest area, to reach the minimum target of 20% and 30% retention of mature forest at the local and landscape spatial scales, respectively. We believe this approach could contribute to meeting the conservation needs of many species that require mature forest features for refuge and breeding in Tasmania and elsewhere. [ABSTRACT FROM AUTHOR]

Published

2018

3. Managing mature forest features: The production, accuracy and ecological relevance of a landscape‐scale map.

Author

Koch, Amelia J., Webb, Matthew, Cawthen, Lisa, Livingston, Daniel, and Munks, Sarah A.

Subjects

FOREST management, HABITAT surveys, TREE cavities, LANDSCAPE ecology

Abstract

Summary: Mature trees and forests contain structural features such as tree hollows, large coarse woody debris and large spreading crowns that provide critical habitat for a wide range of species. These features can take hundreds of years to develop and require careful management to ensure their continued availability. Managing these features requires spatial mapping layers to facilitate landscape‐scale management. This paper outlines how a map of mature forest habitat was developed for Tasmania, Australia. The map was produced using spatial data on vegetation type, mature crown density and senescence, a global layer of forest loss data derived from satellite imagery, a database on timber harvest plans and a spatial layer on the extent of fire. The relationship between mapped mature habitat availability (high, medium, low or negligible) and tree hollow availability in wet forest areas was explored, complementing a similar published study in dry forests. The number of large trees likely to have hollows significantly increased with mapped mature habitat availability, although there was considerable variation and overlap between map categories. Data from a fauna locality database and two radio‐tracking studies showed that three of the vertebrate hollow‐using species examined (Swift Parrot, Common Brushtail Possum and the Tasmanian Long‐eared Bat) and nest records of a species reliant on large tree crowns (the Wedge‐tailed Eagle) were all more likely to occur in areas of higher mapped mature habitat availability. It is concluded that this map reflects the relative availability of tree hollows, is ecologically meaningful and will be useful when managing mature forest habitat at large spatial scales, but the variable accuracy of the map at fine scales needs to be taken into account. [ABSTRACT FROM AUTHOR]

Published

2018

4. A design for a lightweight, collapsible and inexpensive sampling frame for ecological research and monitoring.

Author

Wapstra, Mark, Brown, Bill, and Munks, Sarah

Subjects

STRUCTURAL frame design & construction, SURVEYING (Engineering) equipment, STAG beetles, ENVIRONMENTAL sampling, RESTORATION ecology, ECOLOGICAL research, ENVIRONMENTAL monitoring, FOREST surveys

Abstract

This article describes the design of a sampling quadrant frame constructed as a part of long-term study of leaf-litter-dwelling Stag Beetles being undertaken by the Forest Practices Authority, Tasmania. Information on the materials used and methods followed in constructing the lightweight sampling frame for ecological research and monitoring is presented. Application of this flexible frame made from fiberglass or carbon-fiber in grassland sampling and in restoration treatments is also discussed.

Published

2007

5. The use of temperature loggers to monitor tree hollow use by mammals.

Author

Cawthen, Lisa, Munks, Sarah, Richardson, Alastair, and Nicol, Stewart C

Subjects

*DATA loggers, *AUTOMATIC data collection system equipment, *BRUSH-tailed possums, *MAMMALS, *REMOTE sensing, *EXPERIMENTAL design

Abstract

The article presents research which examines the importance of temperature dataloggers in monitoring tree hollow-using mammals in Tasmania. Radio-telemetry, remote cameras and fiber optics are instruments used to capture the images of these wild animals at Kellevie and Melton Mowbray sites. In addition, metal washer with surgical cotton attached is applied to identify the temperature changes. It found that brushtail possum species showed significant role to the changes of temperature.

Published

2009