A preliminary study on spatial assessment using conservation metrics for intertidal oyster reefs at the Hab River mouth in Pakistan

Abstract

The oyster reefs in Pakistan are on the verge of extinction as a consequence of environmental and anthropogenic factors. A qualitative survey of oyster reef habitat was conducted from March-2017 to February-2018 in the Hab River Delta along the Balochistan coast (Arabian Sea), Pakistan. A combination of field survey and Geographical Information System (GIS) based approach (reef categorization, universal metrics and habitat suitability analysis), universal environmental variables, restoration goal-based metrics, sounding, condition indices, grain size composition and oyster spat-fall were determined for planning future oyster reef restoration efforts. The reefs were categorized into three main groups as dispersed, patch and continuous on the basis of fragmented spatial geometry. Dispersed reefs were more numerous than continuous and patch categories. The differences between morphometric measurements and density of oysters amongst reefs types were statistically insignificant. Habitat suitability analysis was done by ‘Benthic Terrain Modeler’ using ArcGIS software. The moderate, positive values of Bathymetric Position Index (BPI) of the oyster reef indicate an area of high or open slope with sea bottom (-2 to 6). The area of reef location shows high to moderate values of rugosity (0.7 to 0.9), indicates good to intermediate conditions; whereas, the aspect analysis showed slope orientation in the Northeast direction but mostly flat area. The environmental and restoration goal-based metrics were favorable for oyster growth and survival. The dispersed reefs showed lowest bathymetry points compared to patch and continuous reefs. The values of condition indices reveal not significant difference among reef types (continuous, dispersed and patch). Fine sand has the highest percentage (71%) followed by silt/clay fraction (18%). The higher density and spat size were recorded in monsoon (June to September) season. The current study suggests that the present reefs are viable and have potential for successful restoration and may be converted into a sizeable ecologic sanctuary.