Global patterns and drivers of seagrass biomass, net primary production and meadow structure

Foster, Nicole 1 ; Gomis, Enric2; Montemayor, Diana3; Strydom, Simone4; Angel Mateo, Miguel1; Serrano, Eduard2; Ricart, Aurora5; Dahl, Martin6; Mazarrasa, Ines7; Cisternas, Paulina1; Whiteley, Harry1; Bates, Elliot8; Puigcorbé, Viena5; Moreda, Uxue1; Truc, Mar1; Inostroza, Karina2; Huertas, Rafael1; McCallum, Roisin9; Lafratta, Anna9; Webster, Chanelle9; O'dea, Caitlyn9; Said, Nicole9; Duarte, Carlos 10 ; Lavery, Paul9; Serrano, Oscar1

Published Nov 07, 2025 on Dryad. https://doi.org/10.5061/dryad.kprr4xhh1

Data files

Nov 07, 2025 version files 2.37 MB

Dataset_ecological_biomass_complete.csv

2.24 MB
Final_code_analysis_and_plotting.R

124.87 KB
README.md

3.81 KB

Abstract

We decipher global patterns in seagrass growth and structure to advance seagrass science, facilitate multidisciplinary research, and promote effective management strategies and policy development for seagrass habitats. A global data set on seagrass total biomass, total NPP, shoot density, and percent cover was compiled for 11 genera. Here, we tested how these variables change across seagrass genera, life-history strategy, and geographic location, and then sought to decipher the environmental drivers of the patterns observed. The mean (±SE) total biomass of seagrasses globally was estimated at 340 ± 10 g DW m ^-2, and total NPP was estimated at 5.4 ± 0.4 g DW m ^-2 d^-1. Mean shoot density across all genera was 1,780 ± 67 shoots m^-2, and percent cover was 42 ± 1%. Persistent genera showed the highest total biomass, followed by opportunistic and then colonising genera, whereas shoot density was higher for colonising than for persistent, which had the highest percent cover. Latitudinal and bioregional patterns were identified for some genera, and were mostly driven by genus-specific traits, followed by localised environmental factors. Trends in seagrass meadow ecology were largely influenced by seagrass genera and their life-history strategy, with localised environmental factors, such as temperature and nutrients, also playing a role. Global estimates of seagrass biomass and NPP were 2 times higher than previously reported. Seagrass life-history strategies modulate the trade-offs between NPP and biomass to thrive in specific habitats. This study provides the most updated global synthesis of patterns in seagrass growth and structure.

Dataset DOI: 10.5061/dryad.kprr4xhh1

Description of the data and file structure

Data file of metadata and seagrass variables extracted from studies looking at seagrass productivity and structure from 1975-2024 and environmental variable data from Bio-ORACLE v2.0 (2000-2014).
Empty cells denoted that data was not available.

R script for processing analysis and graphing

Files and variables

File: Final_code_analysis_and_plotting.R

Description: Code for analysing and plotting data. This R script imports and cleans a seagrass dataset, adds biological and geographic classifications,customize the appearance of the ggplot map and counts the number of non-missing observations of total productivity per genus.

File: Dataset_ecological_biomass_complete.csv

Description: Seagrass ecology variable data collected from meta-analyses including informati,on on location and BIO-oracle environmental data.

Variables

Unique.ID: For identifying entries from different papers
Latitude: Latitude
Longitude: Longitude
Bioregion: Based on Short et al., 2007 that formulat ( bioregions to classify seagrass distribution.
Geotype: Whether the seagrass was Estuarine or marine
Genera: The genus of seagrass
Year.of.sampling: When the record was collected
Above.ground.biomass..g.DW.m.2.: Above ground biomass in grams of dry weight per metre squared
Below.ground.biomass..g.DW.m.2.: Below ground biomass in grams of dry weight per metre squared
Total.biomass..g.DW.m.2.: The sum of Above ground and below ground biomass if total biomass was not reported
Shoot.density..no..shoots.m.2.: Shoot density in the number of shoots per metre squared
Percent.cover....: Percentage cover of seagrass shoots
Leaf.density..no..leaves.m.2.: Leaf density in the number of leaves per metre squared
Above.ground.production..g.DW.m.2.day..1.: Above ground production in grams of dry weight per metre squared per day
Below.ground.production..g.DW.m.2.day..1.: Below ground production in grams of dry weight per metre squared per day
Total.production..g.DW.m.2.day..1.: The sum of above ground and below ground production if not reported
Shoot.production..g.DW.m.2.day..1.: Growth of shoots in grams of dry weight per metre squared per day
Leaf.production..g.DW.m.2.day..1.: Growth of leaves in grams of dry weight per metre squared per day
Reference: Article reference
DOI: Link to article
BO22_tempmean_ss: Mean sea surface temperature ºC
BO22_tempmax_ss: Maximum sea surface temperature ºC
BO22_tempmin_ss: Minimum sea surface temperature ºC
BO22_ph: ph
BO22_parmax: Maximum photosynthetically available radiation E.m ^-2.day ^-1
BO22_parmean: Mean photosynthetically available radiation E.m^-2.day^-1
BO22_carbonphytomax_ss: Maximum sea surface phytoplankton mmol.m^-3
BO22_carbonphytomean_ss: Mean sea surface phytoplankton mmol.m^-3
BO22_ironmean_ss: Mean sea surface iron concentration mmol . m^-3
BO22_nitratemax_ss: Maximum sea surface nitrate concentration mmol . m^-3
BO22_phosphatemax_ss: Maximum sea surface phosphate concentration mmol.m^-3
BO22_ppmax_ss: Maximum sea surface primary productivity mmol . m^-3
BO22_curvelmean_ss: Mean sea surface water velocity m.s^-1
BO22_ppmean_ss: Mean sea surface primary productivity mmol . m^-3
BO22_salinitymean_ss: Mean salinity
BO22_silicatemean_ss: Mean silicate concentration mmol.m^-3
BO22_dissoxmin_ss: Sea surface minimum dissolved molecular oxygen mmol . m^-3
BO22_dissoxmean_ss: Sea surface mean dissolved molecular oxygen mmol . m^-3
BO22_chlomean_ss: Sea surface mean chlorophyll mg . m^-3