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Anthropogenic risk assessment of riverine habitat using geospatial modelling tools for conservation and restoration planning: A case study from a tropical river Pranhita, India
2023
Kantharajan, Ganesan | Govindakrishnan, Panamanna Mahadevan | Chandran, Rejani | Singh, Rajeev Kumar | Kumar, Kundan | Anand, Arur | Krishnan, Pandian | Mohindra, Vindhya | Shukla, Satya Prakash | Lal, Kuldeep Kumar
Multiple declines and recoveries of Adriatic seagrass meadows over forty years of investigation
2020
Danovaro, Roberto | Nepote, Ettore | Martire, Marco Lo | Carugati, Laura | Da Ros, Zaira | Torsani, Fabrizio | Dell'Anno, Antonio | Corinaldesi, Cinzia
This paper investigated the long-term changes (from 1973 to 2013) of the seagrass meadows of Zostera marina, Zostera noltei and Cymodocea nodosa in the Adriatic Sea subjected to multiple pressures. We examined the changes of the meadows by means of field data collection, observations and analysis of aerial photography to identify the most important drivers of habitat loss. The major decline of seagrass extension observed from 1973 to 1989, was primarily driven by urban development, and by the increase of the blue tourism. From 1989 to 2007 seagrass habitats progressively recovered due to the decrease of urbanization, but from 2007 to 2013 a further significant loss of seagrass meadows was apparently driven by thermal anomalies coupled with an increasing anthropogenic pressure. Our long-term analysis provides evidence that the rates of seagrass loss are faster than the recovery rates (i.e., −4.5 loss rate vs +2.5% recovery rate per year).
显示更多 [+] 显示较少 [-]Status of vulnerable Cystoseira populations along the Italian infralittoral fringe, and relationships with environmental and anthropogenic variables
2018
Mancuso, F.P. | Strain, E.M.A. | Piccioni, E. | De Clerck, O. | Sarà, G. | Airoldi, L.
We analyzed the occurrence and status of infralittoral fringe populations of Cystoseira spp. (Fucales) at thirteen rocky sites around the Italian coastline, and explored the relationships with relevant environmental and anthropogenic variables. We found Cystoseira populations at 11 sites: most were scattered and comprised monospecific stands of C. compressa, and only 6 sites also supported sparse specimens of either C. amentacea var. stricta or C. brachycarpa. Coastal human population density, Chlorophyll a seawater concentrations, sea surface temperature, annual range of sea surface temperature and wave fetch explained most of the variation of the status of C. compressa. We hypothesize a generally unhealthy state of the Italian Cystoseira infralittoral fringe populations and identify multiple co-occurring anthropogenic stressors as the likely drivers of these poor conditions. Extensive baseline monitoring is needed to describe how Cystoseira populations are changing, and implement a management framework for the conservation of these valuable but vulnerable habitats.
显示更多 [+] 显示较少 [-]Pollution signature for temperate reef biodiversity is short and simple
2018
Ling, S.D. | Davey, A. | Reeves, S.E. | Gaylard, S. | Davies, P.L. | Stuart-Smith, R.D. | Edgar, G.J.
Pollution increasingly impacts healthy functioning of marine ecosystems globally. Here we quantify concentrations of major pollutant types (heavy metals/sewage/petrochemicals/plastics) as accumulated within marine sediments on and/or immediately adjacent to shallow reefs for 42 sites spanning coastal population centres across south-eastern Australia. Gradients in pollutants were revealed, but few pollutants co-varied, while increasing wave exposure ostensibly diluted concentrations of all pollutants except microplastics. Examination of reef biodiversity indicators revealed that maximum size of fauna and flora, a key life-history parameter summarised by the Community shortness index, plus declining functional and species richness, were the most sensitive bioindicators of pollutants – for which heavy metals and nutrient-enrichment were most pervasive. Results indicate that assemblages of biogenic habitat formers and associated fauna collapse from “long and complicated” to “short and simplified” configurations in response to increasing pollution, and this community signature may form an effective bioindicator to track human-driven degradation.
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