Gazing into the future: The potential impact of climate change on habitat suitability of the Sungazer (Smaug giganteus)

The sungazer (Smaug giganteus) is a strict grassland specialist lizard endemic to South Africa's highveld grasslands. It is currently listed as Vulnerable (IUCN) and is primarily threatened by anthropogenic activities. Because sungazers are habitat specialists, climate change may be detrimental...

Full description

Saved in:
Bibliographic Details
Published inAustral ecology Vol. 49; no. 8
Main Authors Stanton‐Jones, Wade K., Alexander, Graham J.
Format Journal Article
LanguageEnglish
Published Richmond Blackwell Publishing Ltd 01.08.2024
Subjects
Anthropogenic factors
Buffers
Climate change
Dispersal
ecological niche model
Ecological niches
Environmental impact
Geographical distribution
Grasslands
habitat specialist
habitat suitability
Habitats
Human influences
Land conservation
Land use
Land use management
Life history
Protected areas
Protected species
Smaug giganteus
Threatened species
Wildlife conservation
Online AccessGet full text

Cover

More Information
Summary:The sungazer (Smaug giganteus) is a strict grassland specialist lizard endemic to South Africa's highveld grasslands. It is currently listed as Vulnerable (IUCN) and is primarily threatened by anthropogenic activities. Because sungazers are habitat specialists, climate change may be detrimental to the species, considering their life‐history traits, and the area of available suitable habitat. We assessed how climate change may impact the sungazers' geographic range by first producing an ecological niche model (ENM) for the species within a buffered region of its extent of occurrence (buffered EOO). The ENM was then projected to 2040, 2060, 2080 and 2100 under two climate change scenarios using Shared Socioeconomic Pathways (SSP); SSP245 (moderate‐case) and SSP585 (worst‐case). A mean ensemble of three global circulation models for each time period and scenario was used to create habitat suitability maps which were refined using a natural grassland variable overlay. Resulting maps were clipped to the sungazers' EOO and interpreted distribution. Within the interpreted distribution, models predicted an area of 10 198 km2 of current suitable habitat. At this scale, future habitat suitability is predicted to remain relatively stable (area: 9910 km2; 3% decline) under SSP245 by 2100. However, a 24% decline (area: 7705 km2) in habitat suitability was predicted under SSP585. Within the buffered EOO, habitat suitability increased in south‐western regions, which was more prominent under SSP585. Although this finding suggests that sungazers could track favourable conditions, their life history and low dispersal ability makes climate tracking unlikely. Because sungazers only occur in primary grasslands, regions dominated by agricultural activities, further land use developments are likely to affect the species survival. Thus, careful conservation management is essential, and we recommend the establishment of protected areas with cognizance of our predictions for current and future suitable habitat within the sungazers' interpreted distribution.
ISSN:1442-9985
1442-9993
DOI:10.1111/aec.13577