Your search keyword '"Jane K. Hill"' showing total 8 results

1. Supporting decision-making by companies in delivering their climate net-zero and nature recovery commitments: Synthesising current information and identifying research priorities in rainforest restoration

Author

Sarah A. Scriven, Emily H. Waddell, Sarah Sim, Henry King, Glen Reynolds, Kok Loong Yeong, and Jane K. Hill

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Published

2022

2. Evaluating the effectiveness of Protected Areas for conserving tropical forest butterflies of Thailand

Author

Jane K. Hill, Sravut Klorvuttimontara, and Colin J. McClean

Subjects

Ecology, business.industry, Fauna, Biodiversity, Distribution (economics), Tropics, Geography, Reserve design, Complementarity (molecular biology), Butterfly, Species richness, business, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

In many cases, the designation of Protected Areas (PAs) is not based on biological information, particularly in tropical regions where such information is generally lacking. Thus it is unclear whether tropical PAs are well-placed for conserving biodiversity currently, or under future climate change. We used reserve-design software (‘Zonation’) to investigate current and future conservation value of PAs of Thailand (N = 187 PAs, covering ∼20% of Thailand) in relation to forest-cover and butterfly diversity. Currently, PAs are about 2 °C cooler than non-PAs because PAs tend to occur at higher elevation (66% of land above 1000 m is protected compared with only 6% below 250 m). Temperature is predicted to increase in Thailand in future, but PAs are predicted to remain ∼2 °C cooler than non-PAs in future. We obtained modelled distribution data for 161 butterfly species (∼12% of national butterfly fauna), and used Zonation to rank areas (∼1 km2 grid resolution) based on species richness, complementarity, and forest cover. The conservation value of PAs was approximately twice that of non-PA areas, although many highly-ranked areas are not currently protected. The species richness of PAs was projected to decline by ∼30% in future, but the relative conservation rankings of individual PAs were projected to change very little. The preponderance of PAs in montane regions makes them well-placed to support forest species shifting from areas at lower elevation that become climatically unsuitable in future. By contrast, the conservation value of low-elevation PAs may decline in future if climate conditions become unsuitable for species.

Published

2011

3. Conserving Southeast Asian forest biodiversity in human-modified landscapes

Author

Yann Clough, Teja Tscharntke, Keith C. Hamer, Tien Ming Lee, Navjot S. Sodhi, Jane K. Hill, Lian Pin Koh, Reuben Clements, Mary Rose C. Posa, and Thomas C. Wanger

Subjects

0106 biological sciences, 2. Zero hunger, Habitat fragmentation, Agroforestry, Ecology, 010604 marine biology & hydrobiology, Biodiversity, Reforestation, 15. Life on land, Southeast asian, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Geography, 13. Climate action, Deforestation, Secondary forest, Species richness, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Southeast Asia experiences one of the highest rates of deforestation in the tropics due to agricultural expansion, logging, habitat fragmentation and urbanization, which are expected to result in species declines and extinctions. In particular, growing global demands for food, biofuel and other commodities are driving the rapid expansion of oil palm and paper-and-pulp industries at the expense of lowland dipterocarp forests, further jeopardizing Southeast Asian forest biotas. We synthesize recent findings on the effects of land-use changes on plants, invertebrates, vertebrates and ecosystem functioning/services in Southeast Asia. We find that species richness and abundance/density of forest-dependent taxa generally declined in disturbed compared to mature forests. Species with restricted ranges and those with habitat and foraging specialization were particularly vulnerable. Forest loss also disrupted vital ecosystem services (e.g. crop pollination). Long-term studies are needed to understand biotic sustainability in regenerating and degraded forests, particularly in the context of the synergistic or additive effects of multiple agents of biodiversity loss (e.g. invasive species and climate change). The preservation of large tracts of mature forests should remain the principal conservation strategy in the tropics. In addition, reforestation and reintroductions of native species, as well as improved connectivity among forest patches could enhance the conservation value of forest remnants in human-dominated landscapes.

Published

2010

4. Seasonally adaptive migratory headings mediated by a sun compass in the painted lady butterfly, Vanessa cardui

Author

Jane K. Hill, Duncan Sivell, K.J. Bensusan, Jason W. Chapman, Ian P. Woiwod, and R. L. Nesbit

Subjects

biology, Ecology, biology.organism_classification, Clock shift, Flight simulator, Solar compass, Latitude, Painted lady, Geography, Compass, Butterfly, Animal Science and Zoology, Vanessa cardui, Ecology, Evolution, Behavior and Systematics

Abstract

Many insects undertake long-distance migrations to exploit seasonally variable conditions at high latitudes, but the mechanisms used by migrants to select and maintain beneficial flight headings are poorly understood. Using computerized flight simulators, we performed controlled experiments to test the ability of an obligate migrant butterfly (Vanessa cardui) to orient in seasonally advantageous directions (i.e. northwards in spring and southwards in autumn). We also investigated the compass mechanism used to select and maintain these headings. Laboratory-reared autumn-generation butterflies flown in the U.K. displayed a highly significant mean orientation towards the south-southwest, consistent with return migration to winter breeding sites. However, seasonally adaptive flight headings were not observed in wild-caught adults flown at the same time. Spring-generation adults caught in Gibraltar (presumed to be migrating from winter breeding sites in North Africa into Europe) showed no evidence of northward flight headings, but produced a wide scatter of flight headings with a mean direction towards the west. Butterflies flown in the simulators when the sky was not visible produced a random scatter of flight headings and less-directed flight tracks, providing evidence that migrating V. cardui use a sun compass to select and maintain their flight headings. However, when butterflies were subjected to a 6 h clock shift, no change in orientation was observed relative to the control group. Field evidence for a return migration in autumn by V. cardui is surprisingly scarce in the literature, but we conclude that the species does attempt such southward movements and that individuals use a sun compass to select their migratory heading.

Published

2009

5. Wind Selection and Drift Compensation Optimize Migratory Pathways in a High-Flying Moth

Author

Henrik Mouritsen, Don R. Reynolds, Jane K. Hill, J. R. Riley, Jason W. Chapman, Alan D. Smith, Duncan Sivell, and Ian P. Woiwod

Subjects

Heading (navigation), Agricultural and Biological Sciences(all), 175_Entomology, Ecology, Biochemistry, Genetics and Molecular Biology(all), RRES175, Wind, Moths, Nocturnal, Biology, General Biochemistry, Genetics and Molecular Biology, Compensation (engineering), Habitat, Flight, Animal, Compass, Animals, Insect migration, Animal Migration, SYSNEURO, General Agricultural and Biological Sciences, Selection (genetic algorithm), Overwintering

Abstract

Numerous insect species undertake regular seasonal migrations in order to exploit temporary breeding habitats [1]. These migrations are often achieved by high-altitude windborne movement at night [2, 3, 4, 5, 6], facilitating rapid long-distance transport, but seemingly at the cost of frequent displacement in highly disadvantageous directions (the so-called “pied piper” phenomenon [7]). This has lead to uncertainty about the mechanisms migrant insects use to control their migratory directions [8, 9]. Here we show that, far from being at the mercy of the wind, nocturnal moths have unexpectedly complex behavioral mechanisms that guide their migratory flight paths in seasonally-favorable directions. Using entomological radar, we demonstrate that free-flying individuals of the migratory noctuid moth Autographa gamma actively select fast, high-altitude airstreams moving in a direction that is highly beneficial for their autumn migration. They also exhibit common orientation close to the downwind direction, thus maximizing the rectilinear distance traveled. Most unexpectedly, we find that when winds are not closely aligned with the moth's preferred heading (toward the SSW), they compensate for cross-wind drift, thus increasing the probability of reaching their overwintering range. We conclude that nocturnally migrating moths use a compass and an inherited preferred direction to optimize their migratory track.&nbsp

Published

2008

6. Impacts of selective logging on canopy and ground assemblages of tropical forest butterflies: Implications for sampling

Author

Jane K. Hill and Alex J. Dumbrell

Subjects

Canopy, geography, geography.geographical_feature_category, Ecology, Logging, Biodiversity, Rainforest, Southeast asian, Old-growth forest, Habitat, Environmental science, Secondary forest, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Commercial selective logging is a major cause of habitat disturbance in Southeast Asian rainforests, yet despite much research there is little consensus on impacts of disturbance on biodiversity. There is also little consensus on the most appropriate methods for sampling tropical species, making it difficult to draw general conclusions from published studies. For example, many studies have used butterflies to assess impacts of selective logging but sampling has usually been conducted at ground level and the canopy fauna has often been ignored. In this study, we investigate the importance of sampling in the canopy by using fruit-baited traps to investigate impacts of selective logging on Nymphalid butterflies in primary forest and forest selectively logged 15 years previously in Sabah (Malaysian Borneo). Analysing combined data from canopy (≈25 m above ground level) and ground-level traps showed significantly lower diversity in selectively logged forest. However, this difference was not observed when data from only ground traps were analysed. Primary forest supported a butterfly assemblage comprising species with more restricted geographical ranges, and thus higher conservation value, compared with selectively logged forest. This result was observed regardless of whether or not canopy data were included in this analysis. We conclude that sampling in the canopy is critical when producing species inventories, but of little importance when determining the impacts of selective logging on restricted-range species.

Published

2005

7. Flight morphology in fragmented populations of a rare British butterfly, Hesperia comma

Author

Owen T. Lewis, Chris D. Thomas, and Jane K. Hill

Subjects

education.field_of_study, Habitat fragmentation, biology, Ecology, Rare species, Population, Metapopulation, biology.organism_classification, Hesperia comma, Habitat, Butterfly, Biological dispersal, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

In modern landscapes, many populations of rare species are restricted to fragments of formerly extensive habitat. However, the potential for evolutionary changes in dispersal ability to occur within these fragmented populations has received little attention. We examined morphological traits associated with flight and reproduction in fragmented populations of the silver-spotted skipper butterfly, Hesperia comma . Investment in flight was measured as relative wing area and thorax mass, and investment in reproduction as relative abdomen mass. All measurements were made on individuals reared in a common environment. In the UK, Hesperia comma was once fairly widely distributed in southern and eastern England, but retracted to its smallest UK distribution in the 1970s and 1980s. It then partially re-expanded in the North and South Downs in S.E. England. We first compared traits from colonised and refuge sites 2.9–4.5 km apart, and found no differences in relative investment in flight or reproduction. There were, however, significant differences in both relative thorax and abdomen mass between regions >40 km apart. Populations with the highest relative investment in the thorax occurred in a region where population expansion has been most rapid. These results, in combination with other studies linking butterfly morphology to patch area and/or isolation, suggest that evolutionary responses to habitat fragmentation could be widespread. ©

Published

1999

8. Range retractions and extinction in the face of climate warming

Author

Jane K. Hill, Chris D. Thomas, and Aldina M. A. Franco

Subjects

Extinction, Ranidae, Ecology, Range (biology), Climate, Population Dynamics, digestive, oral, and skin physiology, Global warming, Climate change, Extinction, Biological, humanities, Geography, Fine resolution, Animals, Butterflies, Ecology, Evolution, Behavior and Systematics

Abstract

Until recently, published evidence for the responses of species to climate change had revealed more examples of species expanding than retracting their distributions. However, recent papers on butterflies and frogs now show that population-level and species-level extinctions are occurring. The relative lack of previous information about range retractions and extinctions appears to stem, at least partly, from a failure to survey the distributions of species at sufficiently fine resolution to detect declines, and from a failure to attribute such declines to climate change. The new evidence suggests that climate-driven extinctions and range retractions are already widespread.

Published

2006