13 results on '"Fontaine, Joseph B"'
Search Results
2. Assessing the effectiveness of the Birdsbesafe® anti-predation collar cover in reducing predation on wildlife by pet cats in Western Australia.
- Author
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Hall, Catherine M., Fontaine, Joseph B., Bryant, Kate A., and Calver, Michael C.
- Subjects
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VETERINARY ethology , *ANIMAL populations , *AMPHIBIANS , *MAMMAL physiology , *COLOR vision - Abstract
Many pet cats hunt and, irrespective of whether or not this threatens wildlife populations, distressed owners may wish to curtail hunting while allowing their pets to roam. Therefore we evaluated the effectiveness of three patterned designs (simple descriptions being rainbow, red and yellow) of the anti-predation collar cover, the Birdsbesafe ® (BBS), in reducing prey captures by 114 pet cats over 2 years in a suburban Australian context. The BBS offers a colourful indicator of a cat's presence and should therefore alert prey with good colour vision (birds and herpetofauna), but not most mammals with limited colour vision. We also interviewed the 82 owners of cats in the study about their experience using the BBS and their assessment of the behavioural responses of their cats. In the first year of the study, which focused on the effectiveness of different BBS colours, captures of prey with good colour vision were reduced by 54% (95% CL 43–64%) when cats were wearing a BBS of any colour, with the rainbow and red BBS more effective than the yellow when birds were prey. Captures of mammals were not reduced significantly. The second year assessed the rainbow BBS alone, and those data combined with rainbow data in the first year found a significant reduction of 47% (95% CL 43–57%) in capture of prey with good colour vision, with no effect of differences across years. We found no evidence that cats maintained a lower predation rate once the BBS was removed. Seventy-nine per cent of owners reported that their cats had no problems with the BBS and another 17% reported that their cats adjusted within 2 days. Fourteen owners reported that their cats spent more time at home and ate more while wearing the BBS. Two owners reported their cats stayed away from home more while wearing it. Sixty-four per cent of owners using the red collar, 48% using rainbow and 46% using yellow believed that it worked. Overall, 77% of owners planned to continue using the BBS after the study had finished. The BBS is an option for owners wishing to reduce captures of birds and herpetofauna by free-ranging cats, especially where mammalian prey are introduced pests. To date, the BBS is the only predation deterrent that reduces significantly the number of herpetofauna brought home. It is unsuitable where endangered mammalian prey or large invertebrates are vulnerable to predation by pet cats. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
3. Evaluating forest management intensity on an umbrella species: Capercaillie persistence in central Europe.
- Author
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Mikoláš, Martin, Svitok, Marek, Tejkal, Martin, Leitão, Pedro J., Morrissey, Robert C., Svoboda, Miroslav, Seedre, Meelis, and Fontaine, Joseph B.
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FOREST management ,WESTERN capercaillie ,KEYSTONE species ,DEFORESTATION ,ENVIRONMENTAL impact analysis - Abstract
Deforestation and fragmentation of forests worldwide are negatively impacting biodiversity. The capercaillie ( Tetrao urogallus ) is an endangered umbrella species of montane forests in central Europe. Despite its status, it has largely been overlooked in forest management planning in the Carpathian Mountains, a biodiversity hotspot within the European Union. Previous investigations of timber management effects on capercaillie have shown contradictory results within Europe; habitat loss and fragmentation due to intensive forest management have been implicated in population declines, while other studies have suggested neutral or positive effects. In Romania, recent changes in forest management have shifted from extensive, selective logging to intensive clearcutting; this change provides the opportunity to assess the effects of harvesting on capercaillie numbers across a full range of forest management intensities, thereby addressing discrepancies in the literature. Across the Southern and Eastern Carpathian mountains from 2009–2011, we used spring counts of capercaillie males at leks to evaluate the impact of forest management, other human activities, and habitat at two spatial scales – stand (∼2 ha) and landscape (∼300 ha). At the landscape level, the proportion of forest clearcuts and intensity of tourism had significant negative effects on the number of capercaillie males in the lek. In contrast, low intensity selective logging had a positive effect at the local stand (lek) level. Large scale (landscape level) forest clear-cutting had a negative effect on the capercaillie population – areas comprised of clearcuts of 30% reduced male lek counts by 76%. The protection of intact mature and old-growth forests, and forest management practices that emulate natural disturbance processes are recommended to support habitat of this critical umbrella species and associated biodiversity. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
4. Bird communities following high-severity fire: Response to single and repeat fires in a mixed-evergreen forest, Oregon, USA.
- Author
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Fontaine, Joseph B., Donato, Daniel C., Robinson, W. Douglas, Law, Beverly E., and Kauffman, J. Boone
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FOREST fires ,BIRD communities ,FOREST birds ,HABITATS ,ANIMAL population density ,CLIMATE change ,EVERGREENS ,FOREST management - Abstract
Abstract: Fire is a widespread natural disturbance agent in most conifer-dominated forests. In light of climate change and the effects of fire exclusion, single and repeated high-severity (stand-replacement) fires have become prominent land management issues. We studied bird communities using point counting in the Klamath-Siskiyou ecoregion of Oregon, USA at various points in time after one or two high-severity fires. Time points included 2 and 3 years after a single fire, 17 and 18 years after a single fire, 2 and 3 years after a repeat fire (15 year interval between fires), and >100 years since stand-replacement fire (mature/old-growth forest). Avian species richness did not differ significantly among habitats. Bird density was highest 17 and 18 years after fire, lowest 2 years after fire, and intermediate in repeat burns and unburned forest. Bird community composition varied significantly with habitat type (A =0.24, P <0.0001) with two distinct gradients in species composition relating to tree structure (live to dead) and shrub stature. Using indicator species analysis, repeat burns were characterized by shrub-nesting and ground-foraging bird species while unburned mature forests were characterized by conifer-nesting and foliage-gleaning species. Bird density was not related to snag basal area but was positively related to shrub height. Contrary to expectations, repeated high-severity fire did not reduce species richness, and bird densities were greater in repeat burns than in once-burned habitats. Broad-leaved hardwoods and shrubs appear to play a major role in structuring avian communities in the Klamath-Siskiyou region. In light of these results, extended periods of early seral broadleaf dominance and short-interval high-severity fires may be important to the conservation of avian biodiversity. [Copyright &y& Elsevier]
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- 2009
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5. Soil fungal responses to experimental warming and drying in a Mediterranean shrubland.
- Author
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Birnbaum, Christina, Hopkins, Anna J.M., Fontaine, Joseph B., and Enright, Neal J.
- Abstract
Implications of a drying and warming climate have been investigated for aboveground vegetation across a range of biomes yet below-ground effects on microorganisms have received considerably less attention, especially in Mediterranean Type Ecosystems (MTE) that are predicted to be negatively impacted by climate change. We experimentally reduced rainfall and increased temperature across two contrasting study sites (deep sand dune vs shallow sand swale) to test how projected future climate conditions may impact soil fungal composition, richness and diversity. We also assessed fungal OTU warming responses and putative functions of 100 most abundant OTUs and 120 OTUs that either increased or decreased based on their presence/absence across treatments. We found a significant effect of study site, treatment and canopy species on fungal composition. Soil fungal diversity increased under warming treatment in swale plots as compared to control plots indicating a positive effect of warming on fungal diversity. In dunes, significantly more OTUs responded to drought than warming treatment. Among the most abundant soil fungal putative functional groups were endophytes, ericoid mycorrhizas, yeasts and ectomycorrhizas consistent with previous studies. Plant pathogens were found to increase across dunes and swales, while ericoid mycorrhizae decreased. In summary, our study revealed that it is critical to understand belowground microbial patterns as a result of climate change treatments for our ability to better predict how ecosystems may respond to global environmental changes in the future. Unlabelled Image • Effects of drying and warming climate on soil fungi were studied using metagenomics • Four years of climate change manipulations show effects on soil fungal communities • Significant effect of study site on soil fungal composition • No evidence found for reduced soil fungal richness and diversity [ABSTRACT FROM AUTHOR]
- Published
- 2019
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6. Do collar-mounted predation deterrents restrict wandering in pet domestic cats?
- Author
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Hall, Catherine M., Bryant, Kate A., Fontaine, Joseph B., and Calver, Michael C.
- Subjects
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PREDATION , *WANDERING behavior , *CAT behavior , *WILDLIFE conservation , *GLOBAL Positioning System - Abstract
Roaming pet cats kill and harass wildlife, hybridise with wild felids, interbreed with feral populations, spread disease or annoy neighbours, and endanger their own welfare by fighting, being struck by vehicles or ingesting poisons. Confinement of pet cats is unpopular, so alternative methods to curb roaming behaviour would benefit wildlife conservation and pet wellbeing. Some owners whose cats participated in previous trials testing the effectiveness of the collar-mounted predation deterrents the CatBib and the Birdsbesafe collar cover (BBS) in reducing predation by pet cats reported that their cats stayed closer to home when wearing the devices. Therefore we tested whether these devices might curb roaming behaviour of pet cats as an alternative to confinement. Thirty cats participated. Trials occurred in spring and autumn in Perth, Western Australia (southern hemisphere spring–autumn). Cats wore GPS collars for 10 consecutive days, wearing the GPS collar alone for five days and wearing either a CatBib (16 cats) or BBS (14 cats) as well for a further five days. Treatment order was determined randomly for each cat. We represented cats' home ranges with 95% kernel density estimates (KDE) (100% minimum convex polygon (MCP) provided for comparison with other studies) and 50% KDE (core home range). We also used data for all cats when not wearing either predation deterrent, plus data on a further four cats, to determine the relative effect of sex, age, night confinement, housing density, number of days of rain, total rainfall, and mean maximum temperature on both estimates of home range size. Neither device reduced home range significantly. The mean home range (95% KDE) was 2.79 ha with the CatBib and 2.46 ha without. Figures for the core home range (50% KDE) were 0.63 ha and 0.71 ha respectively. The mean home range (95% KDE) with the BBS (where the sample included fewer cats from lower housing densities) was 0.58 ha and 0.50 ha without. The means for the core home range (50% KDE) were 0.15 ha and 0.14 ha respectively. When cats were not wearing either device, 95% and 50% KDE were predicted most strongly by housing density, presumably a surrogate for cat density. Owners may use a CatBib or BBS to curtail their cat's hunting behaviour, but curtailing roaming behaviour needs another solution. Confinement, although unpopular, remains the most effective option where unwanted roaming is a problem. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
7. Short-term soil fungal community dynamics following fire in mediterranean climate-type banksia woodlands.
- Author
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Brace, Aaron J., Ruthrof, Katinka X., Miller, Ben P., Fontaine, Joseph B., and Hopkins, Anna J.M.
- Abstract
Fire is a dominant ecosystem process in many Mediterranean climate type ecosystems, and is predicted to increase in severity and frequency, shifting away from previous regimes in many regions. Responses of flora and fauna to fire are relatively well studied, but less is known about the responses of belowground microbiota. We quantified soil fungal dynamics over the first 12–15 months after fire, focusing on attributes of the fire regime (season, interval, severity). Soil samples were collected from three sites in a threatened woodland ecosystem in southwestern Australia, a Mediterranean-type climate region. Fungal taxa were identified via high throughput sequencing of the ITS subregion and taxonomy assigned using reference databases. Richness, diversity, abundance, community composition, and functional groups were quantified. Over the post-fire sampling period, richness and diversity declined and soil fungal community composition changed significantly throughout the sampling period, with family level taxa and functional groupings experiencing the most change. Through the sampling period, an increase in saprotrophic and endophytic fungi was observed, along with a decrease in all pathogenic fungi. We found that the post-fire fungal community is quite dynamic in the first 12–15 months after fire. We found little effect of fire interval or fire season, though our inference was limited. Our work contributes to putting belowground biota into the same conceptual frameworks as aboveground taxa and serves to inform fire managers in fire-prone Mediterranean climate type regions. • Little is known about soil fungi in the threatened Banksia woodland. • Soil eDNA was quantified across a 12–15-month post fire timeframe. • The fungal community experienced rapid succession post fire. • Saprotrophs and endophytes increased in relative abundance through time. • High severity fire had higher increases in relative abundance over time. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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8. Multi-scale factors affecting bird use of isolated remnant oak trees in agro-ecosystems
- Author
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DeMars, Craig A., Rosenberg, Daniel K., and Fontaine, Joseph B.
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OREGON oak , *SUSTAINABLE agriculture , *BIODIVERSITY conservation , *REMNANT vegetation , *FRAGMENTED landscapes , *WHITE oak - Abstract
Abstract: With recent emphasis on sustainable agriculture, conservation of native biota within agricultural systems has become a priority. Remnant trees have been hypothesized to increase biological diversity in agro-ecosystems. We investigated how remnant Oregon white oak (Quercus garryana) trees contribute to conserving bird diversity in the agro-ecosystem of the Willamette Valley, Oregon, USA. We compared bird use of isolated oak trees in three landscape contexts – croplands, pastures, and oak savanna reserves – and ranked the relative importance of four factors thought to influence bird use of individual trees: (i) tree architecture; (ii) tree isolation; (iii) tree cover in the surrounding landscape; and (iv) landscape context, defined as the surrounding land use. We evaluated species-specific responses and four community-level responses: (i) total species richness; (ii) richness of oak savanna-associates; (iii) tree forager richness; and (iv) aerial and ground forager richness. We documented 47 species using remnant oaks, including 16 species typically occurring in oak savanna. Surprisingly, landscape context was unimportant in predicting frequency of use of individual trees. Tree architecture, in particular tree size, and tree cover in the surrounding landscape were the best predictors of bird use of remnant trees. Our findings demonstrate that individual remnant trees contribute to landscape-level conservation of bird diversity, acting as keystone habitat structures by providing critical resources for species that could not persist in otherwise treeless agricultural fields. Because remnant trees are rarely retained in contemporary agricultural landscapes in the United States, retention of existing trees and recruitment of replacement trees will contribute to regional conservation goals. [Copyright &y& Elsevier]
- Published
- 2010
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9. Mechanisms of Fire Seasonality Effects on Plant Populations.
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Miller, Russell G., Tangney, Ryan, Enright, Neal J., Fontaine, Joseph B., Merritt, David J., Ooi, Mark K.J., Ruthrof, Katinka X., and Miller, Ben P.
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FIRE management , *EFFECT of fires on plants , *PLANT populations , *PLANT phenology , *FIRE ecology , *FOREST fire ecology , *ECOSYSTEM management , *CHEMICAL composition of plants - Abstract
Altered fire regimes resulting from climate change and human activity threaten many terrestrial ecosystems. However, we lack a holistic and detailed understanding of the effects of altering one key fire regime component – season of fire. Altered fire seasonality can strongly affect post-fire recovery of plant populations through interactions with plant phenology. We identify seven key mechanisms of fire seasonality effects under a conceptual demographic framework and review evidence for these. We reveal negative impacts of altered fire seasonality and identify research gaps for mechanisms and climate types for future analyses of fire seasonality effects within the identified demographic framework. This framework and these mechanisms can inform critical decisions for conservation, land management, and fire management policy development globally. Seasonality of fire is changing globally due to increasing human ignitions and climate change. There is concern that season of fire can strongly affect the persistence of plant populations and composition of plant communities, but our understanding of fire seasonality effects lags behind that for some of the other fire regime components, largely because such effects are often confounded with covarying fire intensity effects. By focusing on the causes of post-fire demographic change in plant populations, mechanisms of fire seasonality effects can be identified and studied. Improved understanding of fire seasonality effects is essential for policy development for fire management in fire-prone ecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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10. Seed Dormancy Interacts with Fire Seasonality Mechanisms.
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Tangney, Ryan, Miller, Russell G., Enright, Neal J., Fontaine, Joseph B., Merritt, David J., Ooi, Mark K.J., Ruthrof, Katinka X., and Miller, Ben P.
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SEED dormancy , *FIRE management , *EFFECT of fires on plants , *FIRE , *SMOKE , *SOIL seed banks - Published
- 2020
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11. Fire Seasonality Mechanisms Are Fundamental for Understanding Broader Fire Regime Effects.
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Miller, Russell G., Tangney, Ryan, Enright, Neal J., Fontaine, Joseph B., Merritt, David J., Ooi, Mark K.J., Ruthrof, Katinka X., and Miller, Ben P.
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FIRE management , *FIRE , *PLANT phenology - Published
- 2020
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12. A synthesis of postfire recovery traits of woody plants in Australian ecosystems.
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Clarke, Peter J., Lawes, Michael J., Murphy, Brett P., Russell-Smith, Jeremy, Nano, Catherine E.M., Bradstock, Ross, Enright, Neal J., Fontaine, Joseph B., Gosper, Carl R., Radford, Ian, Midgley, Jeremy J., and Gunton, Richard M.
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FOREST management , *POST-fire forests , *WOODY plants , *ECOSYSTEMS , *PLANT populations , *PLANT communities - Abstract
Postfire resprouting and recruitment from seed are key plant life-history traits that influence population dynamics, community composition and ecosystem function. Species can have one or both of these mechanisms. They confer resilience, which may determine community composition through differential species persistence after fire. To predict ecosystem level responses to changes in climate and fire conditions, we examined the proportions of these plant fire-adaptive traits among woody growth forms of 2880 taxa, in eight fire-prone ecosystems comprising ~ 87% of Australia's land area. Shrubs comprised 64% of the taxa. More tree (> 84%) than shrub (~ 50%) taxa resprouted. Basal, epicormic and apical resprouting occurred in 71%, 22% and 3% of the taxa, respectively. Most rainforest taxa (91%) were basal resprouters. Many trees (59%) in frequently-burnt eucalypt forest and savanna resprouted epicormically. Although crown fire killed many mallee (62%) and heathland (48%) taxa, fire-cued seeding was common in these systems. Postfire seeding was uncommon in rainforest and in arid Acacia communities that burnt infrequently at low intensity. Resprouting was positively associated with ecosystem productivity, but resprouting type (e.g. basal or epicormic) was associated with local scale fire activity, especially fire frequency. Although rainforest trees can resprout they cannot recruit after intense fires and may decline under future fires. Semi-arid Acacia communities would be susceptible to increasing fire frequencies because they contain few postfire seeders. Ecosystems dominated by obligate seeders (mallee, heath) are also susceptible because predicted shorter inter-fire intervals will prevent seed bank accumulation. Savanna may be resilient to future fires because of the adaptive advantage of epicormic resprouting among the eucalypts. The substantial non-resprouting shrub component of shrublands may decline, but resilient Eucalyptus spp. will continue to dominate under future fire regimes. These patterns of resprouting and postfire seeding provide new insights to ecosystem assembly, resilience and vulnerability to changing fire regimes on this fire-prone continent. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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13. Fire Seasonality Effect on Post-Fire Wind Dispersal: Response to Keith, Dunker, and Driscoll.
- Author
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Miller, Russell G., Tangney, Ryan, Enright, Neal J., Fontaine, Joseph B., Merritt, David J., Ooi, Mark K.J., Ruthrof, Katinka X., and Miller, Ben P.
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- *
FIRE , *EFFECT of fires on plants - Published
- 2020
- Full Text
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