Combining quadrat, rake, and echosounding to estimate submerged aquatic vegetation biomass at the ecosystem scale

Author:

Botrel Morgan12ORCID,Hudon Christiane23ORCID,Biron Pascale M.24ORCID,Maranger Roxane12ORCID

Affiliation:

1. Département de Sciences Biologiques Université de Montréal, Complexe des Sciences Montreal Quebec Canada

2. Groupe de Recherche Interuniversitaire en Limnologie (GRIL) Montreal Quebec Canada

3. Environment and Climate Change Canada Water Science and Technology Montreal Quebec Canada

4. Department of Geography, Planning and Environment Concordia University Montreal Quebec Canada

Abstract

AbstractMeasuring freshwater submerged aquatic vegetation (SAV) biomass at large spatial scales is challenging, and no single technique can cost effectively accomplish this while maintaining accuracy. We propose to combine and intercalibrate accurate quadrat‐scuba diver technique, fast rake sampling, and large‐scale echosounding. We found that the overall relationship between quadrat and rake biomass is moderately strong (pseudo R2 = 0.61) and varies with substrate type and SAV growth form. Rake biomass was also successfully estimated from biovolume (pseudo R2 = 0.57), a biomass proxy derived from echosounding. In addition, the relationship was affected, in decreasing relevance, by SAV growth form, flow velocity, acoustic data quality, depth, and wind conditions. Sequential application of calibrations yielded predictions in agreement with quadrat observations, but echosounding predictions underestimated biomass in shallow areas (< 1 m) while outperforming point estimation in deep areas (> 3 m). Whole‐system quadrat‐equivalent biomass from echosounding differed by a factor of two from point survey estimates, suggesting echosounding is more accurate at larger scales owing to the increased sample size and better representation of spatial heterogeneity. To decide when an individual or a combination of techniques is profitable, we developed a step‐by‐step guideline. Given the risks of quadrat‐scuba diver technique, we recommend developing a one‐time quadrat–rake calibration, followed by the use of rake and echosounding when sampling at larger spatial and temporal scales. In this case, rake sampling becomes a valid ground truthing method for echosounding, also providing valuable species information and estimates in shallow waters where echosounding is inappropriate.

Publisher

Wiley

Subject

Ocean Engineering

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