<p>Transitional water bodies are highly dynamic ecosystems where macrophyte communities integrate environmental variability over space and time. This study assessed macrophyte assemblages, ecological status (Macrophyte Quality Index; MaQI), and physical and chemical conditions across eleven Mediterranean transitional water bodies over a 13-year monitoring period (Apulian region, Southern Italy). Macrophyte diversity showed marked spatial heterogeneity, ranging from species-rich, marine-influenced basins to shallow, nutrient-enriched systems dominated by opportunistic taxa. Multivariate analyses (principal component analysis, PCA, canonical correspondence analysis, CCA) identified salinity, depth, temperature, and nutrient conditions as major drivers of macrophyte distribution, although ecological status exhibited only weak alignment with these gradients. Temporal trajectories of MaQI revealed overall stability at the regional scale but pronounced basin-specific variability, with most basins maintaining good to high ecological status, persistent high status in Porto Cesareo, and recent declines in Lesina to bad ecological status (LE01). These findings highlight the strong environmental differentiation among basins and emphasize the value of integrating macrophyte-based indices with multivariate ecological analyses to improve ecological assessment and support adaptive management of transitional ecosystems.</p>

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Macrophytes and environmental drivers in transitional waters: a 13-year assessment integrating macrophyte quality index (MaQI) and multivariate analyses

  • Andrea Tursi,
  • Nicola Ungaro,
  • Annamaria Mincuzzi,
  • Antonietta Porfido,
  • Antonella Bottalico

摘要

Transitional water bodies are highly dynamic ecosystems where macrophyte communities integrate environmental variability over space and time. This study assessed macrophyte assemblages, ecological status (Macrophyte Quality Index; MaQI), and physical and chemical conditions across eleven Mediterranean transitional water bodies over a 13-year monitoring period (Apulian region, Southern Italy). Macrophyte diversity showed marked spatial heterogeneity, ranging from species-rich, marine-influenced basins to shallow, nutrient-enriched systems dominated by opportunistic taxa. Multivariate analyses (principal component analysis, PCA, canonical correspondence analysis, CCA) identified salinity, depth, temperature, and nutrient conditions as major drivers of macrophyte distribution, although ecological status exhibited only weak alignment with these gradients. Temporal trajectories of MaQI revealed overall stability at the regional scale but pronounced basin-specific variability, with most basins maintaining good to high ecological status, persistent high status in Porto Cesareo, and recent declines in Lesina to bad ecological status (LE01). These findings highlight the strong environmental differentiation among basins and emphasize the value of integrating macrophyte-based indices with multivariate ecological analyses to improve ecological assessment and support adaptive management of transitional ecosystems.