loading page

Merging two eDNA metabarcoding approaches and citizen-science based sampling to facilitate fish community monitoring along vast Sub-Saharan coastlines
  • +14
  • Alfred Burian,
  • Kat Bruce,
  • Erica Tovela,
  • Judith Bakker,
  • Laura Balcells,
  • Rhett Bennett,
  • Sarah Chordekar,
  • Hugo Costa,
  • Alex Crampton-Platt,
  • Hugo de Boer,
  • Vere Ross-Gillespie,
  • Antonio de Sacramento,
  • Naseeba Sidat,
  • Luisa Simbine,
  • Jonathan Ready,
  • Cuong Tang,
  • Quentin Mauvisseau
Alfred Burian
Helmholtz-Centre for Environmental Research - UFZ

Corresponding Author:[email protected]

Author Profile
Kat Bruce
NatureMetrics
Author Profile
Erica Tovela
Natural History Museum University Eduardo Mondlane
Author Profile
Judith Bakker
NatureMetrics
Author Profile
Laura Balcells
NatureMetrics
Author Profile
Rhett Bennett
Wildlife Conservation Society
Author Profile
Sarah Chordekar
NatureMetrics
Author Profile
Hugo Costa
Wildlife Conservation Society
Author Profile
Alex Crampton-Platt
NatureMetrics
Author Profile
Hugo de Boer
University of Oslo
Author Profile
Vere Ross-Gillespie
NatureMetrics
Author Profile
Antonio de Sacramento
Ocean Revolution
Author Profile
Naseeba Sidat
Wildlife Conservation Society
Author Profile
Luisa Simbine
Instituto Oceanográfico de Moçambique
Author Profile
Jonathan Ready
Federal University of Para
Author Profile
Cuong Tang
Natural History Museum
Author Profile
Quentin Mauvisseau
University of Oslo
Author Profile

Abstract

The coastline of Sub-Saharan Africa hosts highly diverse fish communities of high conservation value, which are also key resources for local livelihoods. However, many costal ecosystems are threatened by overexploitation and their conservation state is frequently unknown due to limited monitoring budgets and challenges associated with their vast spatial extents. Here, we evaluated the potential of citizen science-based eDNA surveys to alleviate such chronic data deficiencies and assessed fish communities in Mozambique using two 12S metabarcoding primer sets. Samples were either collected by scientific personnel or trained local community members and results from the two metabarcoding primer sets were combined using a newly created data merging approach. Irrespective of the background of sampling personnel, a high average fish species richness was recorded (38±20 OTUs sample-1). Individual sections of the coastline largely differed in the occurrence of threatened and commercially important species, highlighting the need for regionally differentiated management strategies. A detailed comparison of the two applied primer sets revealed an important trade-off in primer choice with MiFish primers amplifying a higher number of species but Riaz primers performing better in the detection of threatened fish species. This trade-off could be partly resolved by applying our data-merging approach, which has the potential to provide a more robust baseline-data for decision-making processes. Overall, our study provides encouraging results but also highlights that eDNA-based monitoring will require further improvements of e.g., reference databases and local analytical infrastructure to facilitate routine applications in Sub-Saharan Africa.