Habitat protection planning for Indo‐Pacific humpback dolphins (Sousa chinensis) in deteriorating environments: Knowledge gaps and recommendations for action

In Chinese and South‐east Asian waters, the coastal and estuarine environments are important habitats for the Indo‐Pacific humpback dolphin (Sousa chinensis). Coastal and estuarine maritime engineering (CEME), including land reclamation, embankment or shoreline armouring, harbour construction and ma...

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Published inAquatic conservation Vol. 32; no. 1; pp. 171 - 185
Main Authors Huang, Shiang‐Lin, Wang, Xianyan, Wu, Haiping, Peng, Chongwei, Jefferson, Thomas A.
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.01.2022
Subjects
Algorithms
Aquatic mammals
baseline
Biota
Brackishwater environment
citizen science
Coastal engineering
Coastal environments
Coastal waters
Coastal zones
Community involvement
Community participation
community service
Dolphins
Ecological function
ecosystem functionality
Ecosystems
Embankments
Environmental changes
Environmental education
Environmental impact
environmental knowledge
Estuaries
Estuarine environments
Geographical distribution
habitat conservation
habitat destruction
Habitat loss
Habitat selection
Habitats
Harbors
Harbours
Land reclamation
land restoration
marine conservation planning
Marine ecosystems
Marine environment
Marine mammals
Marine organisms
Marine parks
Marine protected areas
maritime engineering
Population density
Population viability
Protected areas
Protection
Remote sensing
satellites
Shorelines
Sousa chinensis
Spatial planning
Species
Surveys
Survival
viability
Online AccessGet full text
ISSN1052-7613
1099-0755
DOI10.1002/aqc.3740

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Abstract In Chinese and South‐east Asian waters, the coastal and estuarine environments are important habitats for the Indo‐Pacific humpback dolphin (Sousa chinensis). Coastal and estuarine maritime engineering (CEME), including land reclamation, embankment or shoreline armouring, harbour construction and marine farming, permanently changes coastal environments and threatens the long‐term persistence of marine biota and ecosystems. Such impacts on humpback dolphin viability, however, are rarely discussed. Likely core habitat of the humpback dolphin was extrapolated based on present understanding of habitat characteristics, which is much narrower than present data describing the species’ range. Some uninvestigated habitats near densely populated landscapes may be prone to intense CEME impacts. CEME impacts compromise humpback dolphin survival through habitat loss, population fragmentation, alteration of ecological regimes and deterioration of ecosystem functionality. A 30% loss of core habitat can catastrophically reduce the population viability of this species. The best strategy to avoid CEME impacts on humpback dolphin viability is to adopt a conservative planning regime from the outset. To inform habitat protection planning, current and past habitat configuration and habitat characteristics of the humpback dolphin can be clarified by systematically designed surveys, local ecological knowledge investigation, long‐term satellite remote‐sensing data and species distribution modelling exercises. Sound habitat protection planning includes mapping hierarchical marine protected area (MPA) networks using spatial planning algorithms and carefully examining CEME impacts from an ecosystem perspective. To prevent inappropriate CEME planning, the inclusion of citizen science, local community participation, marine environmental education and effective information delivery is proposed. Questions relating to the proposed areas of habitat loss, the extent of environmental change and the status of population–habitat viability under the scenario of CEME impacts are proposed in order to examine and re‐examine the environmental impacts of any CEME project.
AbstractList In Chinese and South‐east Asian waters, the coastal and estuarine environments are important habitats for the Indo‐Pacific humpback dolphin ( Sousa chinensis ). Coastal and estuarine maritime engineering (CEME), including land reclamation, embankment or shoreline armouring, harbour construction and marine farming, permanently changes coastal environments and threatens the long‐term persistence of marine biota and ecosystems. Such impacts on humpback dolphin viability, however, are rarely discussed. Likely core habitat of the humpback dolphin was extrapolated based on present understanding of habitat characteristics, which is much narrower than present data describing the species’ range. Some uninvestigated habitats near densely populated landscapes may be prone to intense CEME impacts. CEME impacts compromise humpback dolphin survival through habitat loss, population fragmentation, alteration of ecological regimes and deterioration of ecosystem functionality. A 30% loss of core habitat can catastrophically reduce the population viability of this species. The best strategy to avoid CEME impacts on humpback dolphin viability is to adopt a conservative planning regime from the outset. To inform habitat protection planning, current and past habitat configuration and habitat characteristics of the humpback dolphin can be clarified by systematically designed surveys, local ecological knowledge investigation, long‐term satellite remote‐sensing data and species distribution modelling exercises. Sound habitat protection planning includes mapping hierarchical marine protected area (MPA) networks using spatial planning algorithms and carefully examining CEME impacts from an ecosystem perspective. To prevent inappropriate CEME planning, the inclusion of citizen science, local community participation, marine environmental education and effective information delivery is proposed. Questions relating to the proposed areas of habitat loss, the extent of environmental change and the status of population–habitat viability under the scenario of CEME impacts are proposed in order to examine and re‐examine the environmental impacts of any CEME project.
In Chinese and South‐east Asian waters, the coastal and estuarine environments are important habitats for the Indo‐Pacific humpback dolphin (Sousa chinensis). Coastal and estuarine maritime engineering (CEME), including land reclamation, embankment or shoreline armouring, harbour construction and marine farming, permanently changes coastal environments and threatens the long‐term persistence of marine biota and ecosystems. Such impacts on humpback dolphin viability, however, are rarely discussed.Likely core habitat of the humpback dolphin was extrapolated based on present understanding of habitat characteristics, which is much narrower than present data describing the species’ range. Some uninvestigated habitats near densely populated landscapes may be prone to intense CEME impacts.CEME impacts compromise humpback dolphin survival through habitat loss, population fragmentation, alteration of ecological regimes and deterioration of ecosystem functionality. A 30% loss of core habitat can catastrophically reduce the population viability of this species. The best strategy to avoid CEME impacts on humpback dolphin viability is to adopt a conservative planning regime from the outset.To inform habitat protection planning, current and past habitat configuration and habitat characteristics of the humpback dolphin can be clarified by systematically designed surveys, local ecological knowledge investigation, long‐term satellite remote‐sensing data and species distribution modelling exercises. Sound habitat protection planning includes mapping hierarchical marine protected area (MPA) networks using spatial planning algorithms and carefully examining CEME impacts from an ecosystem perspective.To prevent inappropriate CEME planning, the inclusion of citizen science, local community participation, marine environmental education and effective information delivery is proposed. Questions relating to the proposed areas of habitat loss, the extent of environmental change and the status of population–habitat viability under the scenario of CEME impacts are proposed in order to examine and re‐examine the environmental impacts of any CEME project.
In Chinese and South‐east Asian waters, the coastal and estuarine environments are important habitats for the Indo‐Pacific humpback dolphin (Sousa chinensis). Coastal and estuarine maritime engineering (CEME), including land reclamation, embankment or shoreline armouring, harbour construction and marine farming, permanently changes coastal environments and threatens the long‐term persistence of marine biota and ecosystems. Such impacts on humpback dolphin viability, however, are rarely discussed. Likely core habitat of the humpback dolphin was extrapolated based on present understanding of habitat characteristics, which is much narrower than present data describing the species’ range. Some uninvestigated habitats near densely populated landscapes may be prone to intense CEME impacts. CEME impacts compromise humpback dolphin survival through habitat loss, population fragmentation, alteration of ecological regimes and deterioration of ecosystem functionality. A 30% loss of core habitat can catastrophically reduce the population viability of this species. The best strategy to avoid CEME impacts on humpback dolphin viability is to adopt a conservative planning regime from the outset. To inform habitat protection planning, current and past habitat configuration and habitat characteristics of the humpback dolphin can be clarified by systematically designed surveys, local ecological knowledge investigation, long‐term satellite remote‐sensing data and species distribution modelling exercises. Sound habitat protection planning includes mapping hierarchical marine protected area (MPA) networks using spatial planning algorithms and carefully examining CEME impacts from an ecosystem perspective. To prevent inappropriate CEME planning, the inclusion of citizen science, local community participation, marine environmental education and effective information delivery is proposed. Questions relating to the proposed areas of habitat loss, the extent of environmental change and the status of population–habitat viability under the scenario of CEME impacts are proposed in order to examine and re‐examine the environmental impacts of any CEME project.
Author Huang, Shiang‐Lin
Jefferson, Thomas A.
Peng, Chongwei
Wu, Haiping
Wang, Xianyan
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Notes Funding information
China‐ASEAN Maritime Cooperation Fund, Grant/Award Number: HX01‐190701; HX150702; Guangxi Innovation‐Driven Foundation, Grant/Award Number: AA172040744; Initializing Fund for Fundamental Research, Grant/Award Number: 2020YBJ707; National Natural Science Foundation of China, Grant/Award Numbers: 42076159 to XW, 42166007 to HW
Shiang‐Lin Huang, Xianyan Wang, Haiping Wu, Chongwei Peng and Thomas A. Jefferson equally contributed to this article.
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Snippet In Chinese and South‐east Asian waters, the coastal and estuarine environments are important habitats for the Indo‐Pacific humpback dolphin (Sousa chinensis)....
In Chinese and South‐east Asian waters, the coastal and estuarine environments are important habitats for the Indo‐Pacific humpback dolphin ( Sousa chinensis...
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SubjectTerms Algorithms
Aquatic mammals
baseline
Biota
Brackishwater environment
citizen science
Coastal engineering
Coastal environments
Coastal waters
Coastal zones
Community involvement
Community participation
community service
Dolphins
Ecological function
ecosystem functionality
Ecosystems
Embankments
Environmental changes
Environmental education
Environmental impact
environmental knowledge
Estuaries
Estuarine environments
Geographical distribution
habitat conservation
habitat destruction
Habitat loss
Habitat selection
Habitats
Harbors
Harbours
Land reclamation
land restoration
marine conservation planning
Marine ecosystems
Marine environment
Marine mammals
Marine organisms
Marine parks
Marine protected areas
maritime engineering
Population density
Population viability
Protected areas
Protection
Remote sensing
satellites
Shorelines
Sousa chinensis
Spatial planning
Species
Surveys
Survival
viability
Title Habitat protection planning for Indo‐Pacific humpback dolphins (Sousa chinensis) in deteriorating environments: Knowledge gaps and recommendations for action
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Faqc.3740
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