Your search keyword '"marine coastal ecosystems"' showing total 10 results

1. Make Wetlands Great Again: Reviewing Salt Marsh Vegetation Restoration in the Tijuana River National Estuarine Research Reserve

Author

Sadowski, Rachel

Subjects

The Tijuana River National Estuarine Research Reserve, estuary restoration, wetland restoration, marine coastal ecosystems, adaptive management, vegetation monitoring, salt marsh habitat, long-term data collection, wetland vegetation community, wetland elevation distribution, indicator species, sea level rise, climate change impacts

Abstract

The Tijuana River National Estuarine Research Reserve (TRNERR) is in the planning process of Phase II of its Tijuana Estuary Tidal Restoration Program, which incorporates adaptive management strategies. As a result of the first phase, vegetation monitoring sites were set up throughout the salt marshes at the TRNERR for long-term data collection. This paper is an initial exploratory look into the data collected so far at both the vegetation community and individual species level. The elevation distribution of selected species was calculated in order to inform their inclusion in future restoration efforts. Furthermore, indicator species were chosen to monitor into the future to track shifts in marsh distribution due to sea level rise.

Published

2017

2. Crunch Time in the La Jolla Tide Pools: Photo-documenting the biodiversity at Bird Rock and promoting awareness of human impact in the intertidal zone

Author

Newman, Jacqueline

Subjects

Rocky intertidal zone, tidepools, marine coastal ecosystems, intertidal zone, marine biodiversity, anthropogenic impacts, biotic composition, documenting biodiversity, educational website, website creation, online field guide, science communication, science outreach, public outreach, science education, science learning, Bird Rock, photo documenting

Abstract

The rocky intertidal zones of southern California are important ecosystems, not only for biodiversity and coastal protection, but also for human interest and education. Like most ocean environments, these areas are sensitive to alteration due to human interference. Measuring the biodiversity in these areas is important, so scientists can track how species abundances and diversity change over time. The goal of this capstone project was to promote the awareness of human impact in the intertidal zone by creating a website. The website serves as a field guide, complete with photos for identification purposes, as well as information on how to lessen impact when visiting these tidepooling sites.

Published

2008

3. The cost and feasibility of marine coastal restoration.

Author

Bayraktarov, Elisa, Saunders, Megan I., Abdullah, Sabah, Mills, Morena, Beher, Jutta, Possingham, Hugh P., Mumby, Peter J., and Lovelock, Catherine E.

Subjects

SEAGRASS restoration, MANGROVE restoration, CORAL reef restoration, COST, MARINE habitats, COASTAL development

Abstract

Land-use change in the coastal zone has led to worldwide degradation of marine coastal ecosystems and a loss of the goods and services they provide. Restoration is the process of assisting the recovery of an ecosystem that has been degraded, damaged, or destroyed and is critical for habitats where natural recovery is hindered. Uncertainties about restoration cost and feasibility can impede decisions on whether, what, how, where, and how much to restore. Here, we perform a synthesis of 235 studies with 954 observations from restoration or rehabilitation projects of coral reefs, seagrass, mangroves, saltmarshes, and oyster reefs worldwide, and evaluate cost, survival of restored organisms, project duration, area, and techniques applied. Findings showed that while the median and average reported costs for restoration of one hectare of marine coastal habitat were around US$80 000 (2010) and US$1 600 000 (2010), respectively, the real total costs (median) are likely to be two to four times higher. Coral reefs and seagrass were among the most expensive ecosystems to restore. Mangrove restoration projects were typically the largest and the least expensive per hectare. Most marine coastal restoration projects were conducted in Australia, Europe, and USA, while total restoration costs were significantly (up to 30 times) cheaper in countries with developing economies. Community- or volunteer-based marine restoration projects usually have lower costs. Median survival of restored marine and coastal organisms, often assessed only within the first one to two years after restoration, was highest for saltmarshes (64.8%) and coral reefs (64.5%) and lowest for seagrass (38.0%). However, success rates reported in the scientific literature could be biased towards publishing successes rather than failures. The majority of restoration projects were short-lived and seldom reported monitoring costs. Restoration success depended primarily on the ecosystem, site selection, and techniques applied rather than on money spent. We need enhanced investment in both improving restoration practices and large-scale restoration. [ABSTRACT FROM AUTHOR]

Published

2016

4. Organic carbon sequestration and storage in vegetated coastal habitats along the western coast of the Arabian Gulf

Author

M Cusack, V Saderne, A Arias-Ortiz, P Masqué, P K Krishnakumar, L Rabaoui, M A Qurban, A M Qasem, P Prihartato, R A Loughland, A A Elyas, and C M Duarte

Subjects

blue carbon, carbon sink, marine coastal ecosystems, organic carbon burial, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

Certain coastal ecosystems such as mangrove, saltmarsh and seagrass habitats have been identified as significant natural carbon sinks, through the sequestration and storage of carbon in their biomass and sediments, collectively known as ‘blue carbon’ ecosystems. These ecosystems can often thrive in extreme environments where terrestrial systems otherwise survive at the limit of their existence, such as in arid and desert regions of the globe. To further our understanding of the capability of blue carbon ecosystems to sequester and store carbon in such extreme climates, we measured carbon sediment stocks in 25 sites along the Western Arabian Gulf coast. While seagrass meadows and saltmarsh habitats were widely distributed along the coast, mangrove stands were much reduced as a result of anthropogenic pressures, with 90% of stands having been lost over the last century. Carbon stocks in 1 m deep surface sediments were similar across all three blue carbon habitats, with comparable stocks for saltmarsh (81 ± 22 Mg C _org ha ^−1 ), seagrass (76 ± 20 Mg C _org ha ^−1 ) and mangroves (76 ± 23 Mg C _org ha ^−1 ). We recorded a 38% decrease in carbon stocks between mature established mangrove stands (91 Mg C _org ha ^−1 ) and recently planted mangroves (56 Mg C _org ha ^−1 ). Mangroves also had the lowest carbon stock per total area owing to their very limited spatial coverage along the coast. The largest stock per total area belonged to seagrass beds as a result of their large spatial coverage within the Gulf. We employed ^210 Pb dating to determine the sediment accretion rates in each ecosystem and found mangrove habitats to be the most efficient carbon sequesters over the past century, with the highest carbon burial rate of the three ecosystems (19 g C _org m ^−2 yr ^−1 ), followed by seagrass (9 g C _org m ^−2 yr ^−1 ) and saltmarshes (8 g C _org m ^−2 yr ^−1 ). In this work, we describe a comprehensive comparison of sediment stocks in different blue carbon ecosystems within a single marine environment and across a large geographical area, and discuss our results in a global context for other blue carbon ecosystems in the dry tropics.

Published

2018

5. The challenge of managing the commercial harvesting of the sea urchin

Author

Simone, Farina, Maura, Baroli, Roberto, Brundu, Alessandro, Conforti, Andrea, Cucco, Giovanni, De Falco, Ivan, Guala, Stefano, Guerzoni, Giorgio, Massaro, Giovanni, Quattrocchi, Giovanni, Romagnoni, and Walter, Brambilla

Subjects

Conservation Biology, Ecology, Population Biology, Marine protected area, Marine Biology, Sustainable harvesting, Population dynamic, Spatial management, Marine coastal ecosystems, Stock sustainability, Paracentrotus lividus, Aquaculture, Fisheries and Fish Science, Local fisheries management, Environmental constrains, Sea urchins

Abstract

Sea urchins act as a keystone herbivore in marine coastal ecosystems, regulating macrophyte density, which offers refuge for multiple species. In the Mediterranean Sea, both the sea urchin Paracentrotus lividus and fish preying on it are highly valuable target species for artisanal fisheries. As a consequence of the interactions between fish, sea urchins and macrophyte, fishing leads to trophic disorders with detrimental consequences for biodiversity and fisheries. In Sardinia (Western Mediterranean Sea), regulations for sea urchin harvesting have been in place since the mid 90s. However, given the important ecological role of P. lividus, the single-species fishery management may fail to take into account important ecosystem interactions. Hence, a deeper understanding of population dynamics, their dependance on environmental constraints and multispecies interactions may help to achieve long-term sustainable use of this resource. This work aims to highlight how sea urchin population structure varies spatially in relation to local environmental constraints and species interactions, with implications for their management. The study area (Sinis Peninsula, West Sardinia, Italy) that includes a Marine Reserve was divided into five sectors. These display combinations of the environmental constraints influencing sea urchin population dynamics, namely type of habitat (calcareous rock, granite, basalt, patchy and continuous meadows of Posidonia oceanica), average bottom current speed and predatory fish abundance. Size-frequency distribution of sea urchins under commercial size (

Published

2020

6. Zoning of the Mejillones Peninsula marine protected coastal area of multiple uses, northern Chile.

Author

Ulloa, Raúl, Vargas, Adolfo, Hudson, Cristian, and Rivadeneira, Marcelo M.

Subjects

*MARINE resources conservation, *ZONING, *BIODIVERSITY, *MARINE resources, *DECISION making, *FISH conservation, *SUSTAINABILITY, *RESOURCE exploitation

Abstract

Marine protected areas of multiple uses (MPA-MU), are an important management tool to protect biodiversity and regulate the use of coastal marine resources. However, robust conservation plans require an explicit consideration of not only biological but also social components, balancing the protection of biodiversity with a sustainable exploitation of marine resources. Here we applied the decision-making algorithm MARXAN to provide a zoning analysis at the Mejillones Peninsula MPA-MU in northern Chile, one of largest MPA's of the Humboldt Current Marine Ecosystem. We set conservation goals for coarse and fine-filter conservation targets that were crossed out against different threats and pressure factors from human activities across the area. We identified a portfolio of sites for conservation, within the Mejillones Peninsula MPA-MU, representing different ecological systems with different levels of human impacts and vulnerability. These results may serve as a foundational guideline for the future administration of the MPA-MU. [ABSTRACT FROM AUTHOR]

Published

2013

7. Organic carbon sequestration and storage in vegetated coastal habitats along the western coast of the Arabian Gulf

Author

Cusack, M, Saderne, V, Arias-Ortiz, A, Masque, Pere, Krishnakumar, P K., Rabaoui, L, Qusem, M A., Prihartato, P, Loughland, R A., Elyas, A A., Duarte, C M., Cusack, M, Saderne, V, Arias-Ortiz, A, Masque, Pere, Krishnakumar, P K., Rabaoui, L, Qusem, M A., Prihartato, P, Loughland, R A., Elyas, A A., and Duarte, C M.

Abstract

Certain coastal ecosystems such as mangrove, saltmarsh and seagrass habitats have been identified as significant natural carbon sinks, through the sequestration and storage of carbon in their biomass and sediments, collectively known as 'blue carbon' ecosystems. These ecosystems can often thrive in extreme environments where terrestrial systems otherwise survive at the limit of their existence, such as in arid and desert regions of the globe. To further our understanding of the capability of blue carbon ecosystems to sequester and store carbon in such extreme climates, we measured carbon sediment stocks in 25 sites along the Western Arabian Gulf coast. While seagrass meadows and saltmarsh habitats were widely distributed along the coast, mangrove stands were much reduced as a result of anthropogenic pressures, with 90% of stands having been lost over the last century. Carbon stocks in 1 m deep surface sediments were similar across all three blue carbon habitats, with comparable stocks for saltmarsh (81 ± 22 Mg Corg ha−1), seagrass (76 ± 20 Mg Corg ha−1) and mangroves (76 ± 23 Mg Corg ha−1). We recorded a 38% decrease in carbon stocks between mature established mangrove stands (91 Mg Corg ha−1) and recently planted mangroves (56 Mg Corg ha−1). Mangroves also had the lowest carbon stock per total area owing to their very limited spatial coverage along the coast. The largest stock per total area belonged to seagrass beds as a result of their large spatial coverage within the Gulf. We employed 210Pb dating to determine the sediment accretion rates in each ecosystem and found mangrove habitats to be the most efficient carbon sequesters over the past century, with the highest carbon burial rate of the three ecosystems (19 g Corg m−2 yr−1), followed by seagrass (9 g Corg m−2 yr−1) and saltmarshes (8 g Corg m−2 yr−1). In this work, we describe a comprehensive comparison of sediment stocks in different blue carbon ecosystems within a single marine environment and across a la

Published

2018

8. The challenge of managing the commercial harvesting of the sea urchin Paracentrotus lividus : advanced approaches are required.

Author

Farina S, Baroli M, Brundu R, Conforti A, Cucco A, De Falco G, Guala I, Guerzoni S, Massaro G, Quattrocchi G, Romagnoni G, and Brambilla W

Abstract

Sea urchins act as a keystone herbivore in marine coastal ecosystems, regulating macrophyte density, which offers refuge for multiple species. In the Mediterranean Sea, both the sea urchin Paracentrotus lividus and fish preying on it are highly valuable target species for artisanal fisheries. As a consequence of the interactions between fish, sea urchins and macrophyte, fishing leads to trophic disorders with detrimental consequences for biodiversity and fisheries. In Sardinia (Western Mediterranean Sea), regulations for sea urchin harvesting have been in place since the mid 90s. However, given the important ecological role of P. lividus , the single-species fishery management may fail to take into account important ecosystem interactions. Hence, a deeper understanding of population dynamics, their dependance on environmental constraints and multispecies interactions may help to achieve long-term sustainable use of this resource. This work aims to highlight how sea urchin population structure varies spatially in relation to local environmental constraints and species interactions, with implications for their management. The study area (Sinis Peninsula, West Sardinia, Italy) that includes a Marine Reserve was divided into five sectors. These display combinations of the environmental constraints influencing sea urchin population dynamics, namely type of habitat (calcareous rock, granite, basalt, patchy and continuous meadows of Posidonia oceanica) , average bottom current speed and predatory fish abundance. Size-frequency distribution of sea urchins under commercial size (<5 cm diameter size) assessed during the period from 2004 to 2007, before the population collapse in 2010, were compared for sectors and types of habitat. Specific correlations between recruits (0-1 cm diameter size) and bottom current speeds and between middle-sized sea urchins (2-5 cm diameter size) and predatory fish abundance were assessed. Parameters representing habitat spatial configuration (patch density, perimeter-to-area ratio, mean patch size, largest patch index, interspersion/juxtaposition index) were calculated and their influence on sea urchin density assessed. The density of sea urchins under commercial size was significantly higher in calcareous rock and was positively and significantly influenced by the density and average size of the rocky habitat patches. Recruits were significantly abundant in rocky habitats, while they were almost absent in P. oceanica meadows. The density of middle-sized sea urchins was more abundant in calcareous rock than in basalt, granite or P. oceanica . High densities of recruits resulted significantly correlated to low values of average bottom current speed, while a negative trend between the abundance of middle-sized sea urchins and predatory fish was found. Our results point out the need to account for the environmental constraints influencing local sea urchin density in fisheries management., Competing Interests: Andrea Cucco is an Academic Editor for PeerJ., (© 2020 Farina et al.)

Published

2020

9. Zoning of the mejillones peninsula marine protected coastal area of multiple uses, northern chile

Author

Marcelo M. Rivadeneira, Raúl Ulloa, Cristian Hudson, and Adolfo Vargas

Subjects

0106 biological sciences, Marine conservation, QH301-705.5, Vulnerability, Biodiversity, SH1-691, GC1-1581, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, northern Chile, Peninsula, Environmental protection, Marxan, Aquaculture. Fisheries. Angling, Marine ecosystem, Biology (General), geography, geography.geographical_feature_category, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, AMCP-MU, MARXAN, MPA-MU, MARXAN, marine coastal ecosystems, ecosistemas marinos costeros, planes de conservación, Marine protected area, Zoning, business, norte de Chile, conservation plans

Abstract

Marine protected areas of multiple uses (MPA-MU), are an important management tool to protect biodiversity and regulate the use of coastal marine resources. However, robust conservation plans require an explicit consideration of not only biological but also social components, balancing the protection of biodiversity with a sustainable exploitation of marine resources. Here we applied the decision-making algorithm MARXAN to provide a zoning analysis at the Mejillones Peninsula MPA-MU in northern Chile, one of largest MPA’s of the Humboldt Current Marine Ecosystem. We set conservation goals for coarse and fine-filter conservation targets that were crossed out against different threats and pressure factors from human activities across the area. We identified a portfolio of sites for conservation, within the Mejillones Peninsula MPA-MU, representing different ecological systems with different levels of human impacts and vulnerability. These results may serve as a foundational guideline for the future administration of the MPA-MU.

Published

2013

10. Organic carbon sequestration and storage in vegetated coastal habitats along the western coast of the Arabian Gulf

Author

Cusack, M, Saderne, V, Arias-Ortiz, A, Masque, Pere, Krishnakumar, P K., Rabaoui, L, Qusem, M A., Prihartato, P, Loughland, R A., Elyas, A A., Duarte, C M., Cusack, M, Saderne, V, Arias-Ortiz, A, Masque, Pere, Krishnakumar, P K., Rabaoui, L, Qusem, M A., Prihartato, P, Loughland, R A., Elyas, A A., and Duarte, C M.

Abstract

Cusack, M., Saderne, V., Arias-Ortiz, A., Masqué, P., Krishnakumar, P. K., Rabaoui, L., ... & Elyas, A. A. (2018). Organic carbon sequestration and storage in vegetated coastal habitats along the western coast of the Arabian Gulf. Environmental Research Letters, 13(7). Available here