Understanding the determinants of biodiversity non-use values in the context of climate change: Stated preferences for the Hawaiian coral reefs

Increasing evidence suggests that coral reefs exposed to elevated turbidity may be more resilient to climate change impacts and serve as an important conservation hotspot. However, logistical difficulties in studying turbid environments have led to poor representation of these reef types within the scientific literature, with studies using different methods and definitions to characterize turbid reefs. Here we review the geological origins and growth histories of turbid reefs from the Holocene (past), their current ecological and environmental states (present), and their potential responses and resilience to increasing local and global pressures (future). We classify turbid reefs using new descriptors based on their turbidity regime (persistent, fluctuating, transitional) and sources of sediment input (natural versus anthropogenic). Further, by comparing the composition, function and resilience of two of the most studied turbid reefs, Paluma Shoals Reef Complex, Australia (natural turbidity) and Singapore reefs (anthropogenic turbidity), we found them to be two distinct types of turbid reefs with different conservation status. As the geographic range of turbid reefs is expected to increase due to local and global stressors, improving our understanding of their responses to environmental change will be central to global coral reef conservation efforts.

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Evolution and connectivity influence the persistence and recovery of coral reefs under climate change in the Caribbean, Southwest Pacific, and Coral Triangle

Global Change Biology ◽

10.1111/gcb.15725 ◽

2021 ◽

Author(s):

Lisa C. McManus ◽

Daniel L. Forrest ◽

Edward W. Tekwa ◽

Daniel E. Schindler ◽

Madhavi A. Colton ◽

...

Keyword(s):

Climate Change ◽

Coral Reefs ◽

Coral Triangle ◽

Southwest Pacific ◽

The Caribbean

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Ecosystem-Based Adaptation to Protect Avian Species in Coastal Communities in the Greater Niagara Region, Canada

Climate ◽

10.3390/cli9060091 ◽

2021 ◽

Vol 9 (6) ◽

pp. 91

Author(s):

Samantha Gauthier ◽

Bradley May ◽

Liette Vasseur

Keyword(s):

Climate Change ◽

Coral Reefs ◽

Scoping Review ◽

Scientific Literature ◽

Specific Area ◽

Coastal Ecosystems ◽

Coastal Communities ◽

Living Shorelines ◽

Human Wellbeing ◽

Living Shoreline

Coastal communities are increasingly vulnerable to climate change and its effects may push coastal ecosystems to undergo irreversible changes. This is especially true for shorebirds with the loss of biodiversity and resource-rich habitats to rest, refuel, and breed. To protect these species, it is critical to conduct research related to nature-based Solutions (NbS). Through a scoping review of scientific literature, this paper initially identified 85 articles with various ecosystem-based adaptation (EbA) strategies that could help conserve shorebird populations and promote ecotourism. Of these 85 articles, 28 articles had EbA strategies that were examined, with some like coral reefs and mangroves eliminated as they were inappropriate for this region. The scoping review identified four major EbA strategies for the Greater Niagara Region with living shorelines and beach nourishment being the most suitable, especially when combined. These strategies were then evaluated against the eight core principles of nature-based solutions protecting shorebird as well as human wellbeing. Living shoreline strategy was the only one that met all eight NbS principles. As the coastline of the region greatly varies in substrate and development, further research will be needed to decide which EbA strategies would be appropriate for each specific area to ensure their efficacy.

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Potential of increasing intensity of tropical cyclones due to sea surface temperature and impact on coral reefs in the context of climate change

Disaster Advances ◽

10.25303/149da0107 ◽

2021 ◽

Vol 14 (9) ◽

pp. 1-7

Author(s):

N.D. Hung ◽

L.T.H. Thuy ◽

T.V. Hang ◽

T.N. Luan

Keyword(s):

Climate Change ◽

Coral Reefs ◽

Surface Temperature ◽

Sea Surface Temperature ◽

Tropical Cyclones ◽

Coral Cover ◽

Central Zone ◽

Biosphere Reserve ◽

Sea Surface ◽

Strong Winds

The coral reef ecosystem in Cu Lao Cham, Vietnam is part of the central zone of the Cu Lao Cham -Hoi An, a biosphere reserve and it is strictly protected. However, the impacts of natural disasters - tropical cyclones (TCs) go beyond human protection. The characteristic feature of TCs is strong winds and the consequences of strong winds are high waves. High waves caused by strong TCs (i.e. level 13 or more) cause decline in coral cover in the seas around Cu Lao Cham. Based on the relationship between sea surface temperature (SST) and the maximum potential intensity (MPI) of TCs, this research determines the number of strong TCs in Cu Lao Cham in the future. Using results from a regional climate change model, the risk is that the number of strong TCs in the period 2021-2060 under the RCP4.5 scenario, will be 3.7 times greater than in the period 1980-2019 and under the RCP 8.5 scenario it will be 5.2 times greater than in the period 1980-2019. We conclude that increases in SST in the context of climate change risks will increase the number and intensity of TCs and so the risk of their mechanical impact on coral reefs will be higher leading to degradation of this internationally important site.

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