Add to ORKGThe distributions of tropical and subtropical seagrass beds have not been properly monitored in many countries, owing to the limitations of observation methodologies. Conventional aerial photography fails to detect small-sized species and deep-water seagrass beds. We have developed a new mapping system that uses a remotely operated vehicle (ROV) equipped with an underwater digital camera to monitor seagrass beds. This system enables us to take digital photographs of seagrasses delimited by a quadrat frame. With semi-automatic processing of these photographs, seagrass leaf coverage can be calculated
In this paper, we introduced a new approach for absolute seagrass biomass determination using remote...
The spatial and temporal dynamics of seagrasses have been studied from the leaf to patch (100 m**2) ...
Seagrass is an important component of coastal marine ecosystems. Seagrass mapping provides a means f...
Mapping and monitoring of marine habitats are important for proper management and decision making. H...
Seagrasses are core components of the nearshore environment and there is sustained interest in devel...
This research assesses a survey method for measuring the change in density of intertidal estuarine s...
Monitoring seagrass habitats is required by many agencies and jurisdictions including Natural Resour...
Decline of seagrasses has been documented in many parts of the world. Reduction in water clarity, th...
Monitoring seagrass habitats is required by many agencies and jurisdictions including Natural Resour...
Background: Seagrass beds are essential habitats in coastal ecosystems, providing valuable ecosystem...
Seagrass beds provide a range of ecosystem services but are at risk from anthropogenic pressures. Wh...
Seagrass meadows are complex ecosystems representing an important source of biodiversity for coastal...
Seagrass meadows are complex ecosystems representing an important source of biodiversity for coastal...
<div><p>Repeatable and accurate seagrass mapping is required for understanding seagrass ecology and ...
Seagrass ecosystems can be mapped using RS because this technique is versatile and accurate. The ava...
In this paper, we introduced a new approach for absolute seagrass biomass determination using remote...
The spatial and temporal dynamics of seagrasses have been studied from the leaf to patch (100 m**2) ...
Seagrass is an important component of coastal marine ecosystems. Seagrass mapping provides a means f...
Mapping and monitoring of marine habitats are important for proper management and decision making. H...
Seagrasses are core components of the nearshore environment and there is sustained interest in devel...
This research assesses a survey method for measuring the change in density of intertidal estuarine s...
Monitoring seagrass habitats is required by many agencies and jurisdictions including Natural Resour...
Decline of seagrasses has been documented in many parts of the world. Reduction in water clarity, th...
Monitoring seagrass habitats is required by many agencies and jurisdictions including Natural Resour...
Background: Seagrass beds are essential habitats in coastal ecosystems, providing valuable ecosystem...
Seagrass beds provide a range of ecosystem services but are at risk from anthropogenic pressures. Wh...
Seagrass meadows are complex ecosystems representing an important source of biodiversity for coastal...
Seagrass meadows are complex ecosystems representing an important source of biodiversity for coastal...
<div><p>Repeatable and accurate seagrass mapping is required for understanding seagrass ecology and ...
Seagrass ecosystems can be mapped using RS because this technique is versatile and accurate. The ava...
In this paper, we introduced a new approach for absolute seagrass biomass determination using remote...
The spatial and temporal dynamics of seagrasses have been studied from the leaf to patch (100 m**2) ...
Seagrass is an important component of coastal marine ecosystems. Seagrass mapping provides a means f...