scholarly journals Long-term changes in populations of rainforest birds in the Australia Wet Tropics bioregion: A climate-driven biodiversity emergency

PLoS ONE ◽  
2021 ◽  
Vol 16 (12) ◽  
pp. e0254307
Author(s):  
Stephen E. Williams ◽  
Alejandro de la Fuente
Keyword(s):  
Climate Change ◽  
World Heritage ◽  
High Elevation ◽  
Population Declines ◽  
Local Abundance ◽  
Outstanding Universal Value ◽  
Bird Monitoring ◽  
Wet Tropics ◽  
World Heritage Area ◽  
Heritage Area

Many authors have suggested that the vulnerability of montane biodiversity to climate change worldwide is significantly higher than in most other ecosystems. Despite the extensive variety of studies predicting severe impacts of climate change globally, few studies have empirically validated the predicted changes in distribution and population density. Here, we used 17 years (2000–2016) of standardised bird monitoring across latitudinal/elevational gradients in the rainforest of the Australian Wet Tropics World Heritage Area to assess changes in local abundance and elevational distribution. We used relative abundance in 1977 surveys across 114 sites ranging from 0-1500m above sea level and utilised a trend analysis approach (TRIM) to investigate elevational shifts in abundance of 42 species. The local abundance of most mid and high elevation species has declined at the lower edges of their distribution by >40% while lowland species increased by up to 190% into higher elevation areas. Upland-specialised species and regional endemics have undergone dramatic population declines of almost 50%. The “Outstanding Universal Value” of the Australian Wet Tropics World Heritage Area, one of the most irreplaceable biodiversity hotspots on Earth, is rapidly degrading. These observed impacts are likely to be similar in many tropical montane ecosystems globally.

scholarly journals Long-term changes in populations of rainforest birds in the Australia Wet Tropics bioregion: a climate-driven biodiversity emergency

2021 ◽  
Author(s):  
Stephen Edward Williams ◽  
Alejandro de la Fuente
Keyword(s):  
Climate Change ◽  
World Heritage ◽  
High Elevation ◽  
Population Declines ◽  
Local Abundance ◽  
Outstanding Universal Value ◽  
Bird Monitoring ◽  
Wet Tropics ◽  
World Heritage Area ◽  
Heritage Area

Many authors have suggested that the vulnerability of montane biodiversity to climate change worldwide is significantly higher than in most other ecosystems. Despite the extensive variety of studies predicting severe impacts of climate change globally, few studies have empirically validated the predicted changes in distribution and population density . Here, we used 17 years of bird monitoring across latitudinal/elevational gradients in the rainforest of the Australian Wet Tropics World Heritage Area to assess changes in local abundance and distribution. We used relative abundance in 1977 surveys across 114 sites ranging from 0-1500m above sea level and utilised a trend analysis approach (TRIM) to investigate elevational shifts in abundance of 42 species between 2000 – 2016. The local abundance of most mid and high elevation species has declined at the lower edges of their distribution by >40% while lowland species increased by up to 190% into higher elevation areas. Upland-specialised species and regional endemics have undergone dramatic population declines of almost 50%. The “Outstanding Universal Value” of the Australian Wet Tropics World Heritage Area, one of the most irreplaceable biodiversity hotspots on Earth, is rapidly degrading. These observed impacts are likely to be similar in many tropical montane ecosystems globally.

Caridina malanda, a new species of freshwater shrimp (Crustacea: Decapoda: Atyidae) from the Wet Tropics World Heritage area, north–eastern Queensland, Australia

Zootaxa ◽  
2019 ◽  
Vol 4652 (1) ◽  
pp. 113-125
Author(s):  
SATISH CHOY ◽  
TIMOTHY J. PAGE ◽  
VALENTIN DE MAZANCOURT ◽  
BENJAMIN MOS
Keyword(s):  
New Species ◽  
World Heritage ◽  
Molecular Data ◽  
Sympatric Species ◽  
Morphological Studies ◽  
North Eastern ◽  
Wet Tropics ◽  
World Heritage Area ◽  
Heritage Area ◽  
A New Species

Integrated molecular and morphological studies of newly collected and curated specimens of the genus Caridina from the Atherton Tablelands, Wet Tropics World Heritage Area in north–eastern Queensland, Australia indicated the presence of an undescribed species belonging to the Caridina zebra Short 1993 complex. This species is somewhat intermediate, although distinct on the basis of molecular data and morphology, from two known sympatric species, Caridina zebra and C. confusa Choy & Marshall 1997, and an allopatric species, C. spinula Choy & Marshall 1997, from the Cape York Peninsula, about 500 km north. It is described here as a new species, C. malanda sp. nov., and compared with similar congeners. A key for the identification of the species, as well as notes on its distribution, ecology, and conservation, are provided. 

Potential lantana invasion of the Greater Blue Mountains World Heritage Area under climate change.

2011 ◽  
Vol 17 (1) ◽  
pp. 54 ◽  
Author(s):  
Alexander Gold ◽  
Daniel Ramp ◽  
Shawn W Laffan
Keyword(s):  
Climate Change ◽  
High Capacity ◽  
World Heritage ◽  
Suitable Habitat ◽  
Invasive Weeds ◽  
Ecosystem Integrity ◽  
Blue Mountains ◽  
Mountainous Regions ◽  
World Heritage Area ◽  
Heritage Area

Invasive weeds represent one of the greatest threats to ecosystem integrity worldwide, with climate change predicted to allow expansion of weed ranges in coming decades. One of Australia’s worst weeds is lantana (Lantana camara) which, given the potential for climatic change, is of increasing concern to those managing the mountainous regions in the country’s southeast. In order to identify potential additional threats lantana may pose for Australia’s valued biodiversity, this research develops a habitat suitability model for lantana in a portion of the Greater Blue Mountains World Heritage Area under current and simulated warmer conditions. Minimum temperature was found to be the most important predictor correlated with potential lantana establishment, explaining over 88% of the variation in lantana presence predicted by the model. Currently, 8% of the study area was found to be suitable for lantana, with this figure reaching 94% after a simulated 2°C rise in temperature anticipated by 2050. The sharp increase in suitable habitat highlights the importance of keeping the weed’s range restricted in the study area. The strong link between temperature and predicted lantana establishment confirms prior research and further stresses the threat this weed poses to the area’s biodiversity values as the climate warms. In addition, the model identified low-lying riparian areas as potential incursion pathways for the weed to travel further inland. Given the weed’s invasiveness, potential for adverse impacts, and high capacity for dispersal, these pathways should not be overlooked when monitoring potential invasion of mountainous regions by lantana and other tropical weeds.

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