TY - JOUR
T1 - Integrating ocean observations across body‐size classes to deliver benthic invertebrate abundance and distribution information
AU - Ruhl, Henry A.
AU - Bett, Brian J.
AU - Ingels, Jeroen
AU - Martin, Adrian
AU - Gates, Andrew R.
AU - Yool, Andrew
AU - Benoist, Noëlie M.A.
AU - Appeltans, Ward
AU - Howell, Kerry L.
AU - Danovaro, Roberto
PY - 2023/5/31
Y1 - 2023/5/31
N2 - Invertebrate animals living at the seafloor make up a prominent component of life globally, spanning 10 orders of magnitude in body size over 71% of Earth's surface. However, integrating information across sizes and sampling methodologies has limited our understanding of the influence of natural variation, climate change and human activity. Here, we outline maturing practices that can underpin both the feasibility and impact of establishing Benthic Invertebrate Abundance and Distribution as a Global Ocean Observing System—Essential Ocean Variable, including: (1) quantifying individual body size, (2) identifying the well‐quantified portions of sampled body‐size spectra, (3) taking advantage of (semi‐)automated information processing, (4) application of metadata standards such as Darwin Core, and (5) making data available through internationally recognized access points. These practices enable broader‐scale analysis supporting research and sustainable development, such as assessments of indicator taxa, biodiversity, biomass, and the modeling of carbon stocks and flows that are contiguous over time and space.
AB - Invertebrate animals living at the seafloor make up a prominent component of life globally, spanning 10 orders of magnitude in body size over 71% of Earth's surface. However, integrating information across sizes and sampling methodologies has limited our understanding of the influence of natural variation, climate change and human activity. Here, we outline maturing practices that can underpin both the feasibility and impact of establishing Benthic Invertebrate Abundance and Distribution as a Global Ocean Observing System—Essential Ocean Variable, including: (1) quantifying individual body size, (2) identifying the well‐quantified portions of sampled body‐size spectra, (3) taking advantage of (semi‐)automated information processing, (4) application of metadata standards such as Darwin Core, and (5) making data available through internationally recognized access points. These practices enable broader‐scale analysis supporting research and sustainable development, such as assessments of indicator taxa, biodiversity, biomass, and the modeling of carbon stocks and flows that are contiguous over time and space.
U2 - 10.1002/lol2.10332
DO - 10.1002/lol2.10332
M3 - Article
SN - 2378-2242
VL - 0
JO - Limnology And Oceanography Letters
JF - Limnology And Oceanography Letters
IS - 0
ER -