An efficient method for estimating seagrass biomass

Seagrass biomass was estimated in a 37.649 km 2 area in Moreton Bay, Queensland. The study area was stratified by hand-digitising seven strata that were identified by photo-interpretation of a colour aerial photograph. A pilot study was undertaken to calculate how many samples should be taken at each site and how best to allocate sampling effort to the seven strata. Sengrass samples taken with a modified 'orange-peel' grab and by coring were the same (P> 0.5). As the grab is easier to use, quicker, can be operated by one person from a small dinghy, and does not call for diving or wading, we used it for the main study. Four seagrasses were found in the study area. The dominant seagtass was Zostera capricorni Aschers., with smaller quantities of Halophila ovalis (R.Br.) Hook.f., Halophila spinulosa (R.Br.) Aschers. and Halodule uninervis (Forssk.) Aschers. The total seasrass biomass in the study area was estimated at 2145 + 568 t (95% confidence interval). Stratification improved the precision of the simple random sampling estimate by 68%. The use of a Geographic Information System (GIS) and Computer Aided Drafting (CAD) for sample design, a Global Positioning System (GPS) for locating sample sites in the field and the grab for taking samples substantially enhanced research productivity and accuracy. The experimental design is statistically robust and provides large samples for costeffective and reliable estimates of seagrass biomass.