# The Geography of Mediterranean Benthic Communities Under Climate Change

**Authors:** Damiano Baldan, Yohann Chauvier‐Mendes, Diego Panzeri, Gianpiero Cossarini, Cosimo Solidoro, Vinko Bandelj

PMC · DOI: 10.1111/gcb.70725 · 2026-01-29

## TL;DR

This study predicts how climate change will shift Mediterranean seafloor species northward, affecting biodiversity and guiding conservation strategies.

## Contribution

The paper introduces a comprehensive projection of benthic species distribution changes in the Mediterranean using advanced models and extensive data.

## Key findings

- Most benthic species are projected to shift northwards due to rising temperatures and oxygen changes.
- Cold-adapted species face range contraction and deeper water shifts, while warm-adapted species expand and move shallower.
- α-diversity increases in the North and decreases in the South Mediterranean, with significant community turnover in specific regions.

## Abstract

Seafloors are crucial to marine ecosystems for the functions and services they provide. Benthic organisms, vital to these ecosystems, are particularly vulnerable to climate change. Rising temperatures, ocean acidification, and shifting currents disrupt benthic species and communities, yet future related impact assessments remain limited. Here, we trained species distribution models with predictors from state of the art physical and biogeochemical marine models and a large database of species records (> 100,000 occurrences) to project the current and future distributions of ~350 benthic species (excluding cephalopods, invasive species, and commercially exploited species) and their related changes per site in diversity (α‐) and community composition (β‐diversity) over the Mediterranean Sea. We predicted most species to shift their distribution northwards for all future scenarios due to changes in water temperature and dissolved oxygen close to the seafloor, with up to 60% of species experiencing range contraction, 77% moving northwards, 20% experiencing range fragmentation (measured as range disjunctions in models' output), and 30% moving toward deeper waters over time. Cold‐adapted species were more likely to face range contraction and shifts towards deeper waters, while warm‐adapted species were more likely to face range expansions and shifts towards shallower waters. α‐diversity increased in the Northern and decreased in the Southern Mediterranean, respectively. Changes in β‐diversity within sites highlighted compositional changes (species turnover) in communities located in the Aegean and Tyrrhenian Seas, in deep parts of the Ionian Sea, and in coastal regions of the Adriatic Sea. Climate‐smart, ecosystem‐based Marine Spatial Planning can capitalize on the identified hotspots of species losses, gains, stability, and turnover. Prioritizing connectivity in regions of strong turnover and extending protected areas in regions with stable α‐diversity and limited turnover is recommended for improved conservation actions.

We employed Species Distribution Models with environmental variables from state of the art physical and biogeochemical marine models and a large database of species records to project the current and future distributions of ~350 benthic species in the Mediterranean Sea. Our results show that, due to changes in water temperature and dissolved oxygen close to the seafloor, most species are projected to shift their distribution northwards, with several species experiencing range contraction, range fragmentation, and moving toward deeper waters over time. Climate‐smart, ecosystem‐based Marine Spatial Planning can capitalize on the identified hotspots of species losses, gains, stability, and turnover.

## Full-text entities

- **Chemicals:** phosphate (MESH:D010710), carbon (MESH:D002244), O2 (MESH:D010100), Chlorophyll (MESH:D002734), ammonium (MESH:D064751), NO3 (MESH:C038619), nitrate (MESH:D009566), NH4 (-), P (MESH:D010758)
- **Species:** Percnon gibbesi (nimble spray crab, species) [taxon 84658], Homo sapiens (human, species) [taxon 9606], Macropipus tuberculatus (species) [taxon 557266], Neverita josephinia (Josephine's Moon Snail, species) [taxon 488666], Nephrops norvegicus (Norway lobster, species) [taxon 6829], Parapenaeus longirostris (species) [taxon 445224], Aristeus antennatus (blue and red shrimp, species) [taxon 479306], Aristaeomorpha foliacea (giant gamba prawn, species) [taxon 2556126]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12853245/full.md

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Source: https://tomesphere.com/paper/PMC12853245