Preface
Page: i-ii (2)
Author: Tamer El-Sayed Ali
DOI: 10.2174/9789815179064123010001
PDF Price: $15
Biotoxins in the Mediterranean Sea: Lebanon as a Case Study
Page: 1-43 (43)
Author: Abed El Rahman Hassoun*, Ivana Ujević, Milad Fakhri, Romana Roje-Busatto*, Céline Mahfouz, Sharif Jemaa and Nikša Nazlić
DOI: 10.2174/9789815179064123010003
PDF Price: $15
Abstract
Marine biotoxins are naturally occurring chemicals produced by toxic algae.
They can be found in seawater and can accumulate in various marine organisms, such
as commercial seafood. When contaminated seafood is consumed, these biotoxins can
cause poisoning in humans, with varying health consequences depending on the type
and amount of toxins. The proliferation of biotoxin-producing algae in the marine
environment has dire socio-economic and environmental consequences due to the
contamination of water and seafood. Due to the number of factors related to human
pressures and climate change impacts, the frequency of marine biotoxins’ occurrence is
increasing significantly globally, and in regional seas such as the Mediterranean Sea. In
this chapter, we highlight Lebanon in the Eastern Mediterranean Sea, where marine
biotoxins were recently studied. The results show for the first time the presence of
lipophilic toxins and cyclic imines in marine biota, with values for okadaic acid,
dinophysistoxin 1 and 2, pectenotoxin 1 and 2, yessotoxins and azaspiracids below the
detection limit (LOD). Levels above LOD were detected for domoic acid (DA),
gymnodimine (GYMb), and spirolides (SPXs) in some species/areas. Maximum levels
of DA, GYM, and SPXs (3.88 mg DA kg-1, 102.9 µg GYM kg-1, 15.07 µg SPX kg-1)
were found in the spiny oyster (Spondylus spinosus) in agreement with the occurrence
of Pseudo-nitzchia spp, Gymndinium spp, and Alexandrium spp. DA was below the EU
limit but above the lowest observed adverse effect level (0.9 μg g-1) for neurotoxicity
in humans and below the acute reference dose (30 µg kg-1 body weight), both
established by EFSA. Considering the lowest lethal dose (LD50) after administration of
GYM and SPXs to mice, it is unlikely that there is a health risk due to exposure to
these toxins from seafood consumption in Lebanon. Nevertheless, the chronic toxicity
of DA, GYMs, and SPXs remains unclear, and the effects of repeated consumption of contaminated seafood need to be investigated. Because biotoxins have
been detected in bivalves and commercial species, as well as other organisms in the
marine trophic chain, it is evident that species other than bivalves should be monitored,
and the spiny oyster (S. spinosus) may play the role of a sentinel species in biotoxin
studies. A regular monitoring program is needed to provide reliable, accurate estimates
of bloom toxicity and to investigate their potential impact on marine species and human
health in Lebanon.
Short-Term Bioassay Tests for Toxicity Effluents Estimation and Bio-Monitoring Uses in Aquatic Ecosystems
Page: 44-53 (10)
Author: Sahar Karray and Monia El Bour*
DOI: 10.2174/9789815179064123010004
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Abstract
Bioassays are defined as the measurement of toxic responses upon exposure
to chemicals under controlled conditions in the laboratory using cultured organisms and
represent powerful tools for the assessment of environmental quality. These biological
tests were pointed out as the most common methods used to assess the environmental
risk, mainly in marine ecosystems besides biomarkers and biosensors. The list of
different toxicity bioassays is still increasing and a large battery of different aquatic
organisms is available for the measurement of organic and inorganic chemical toxicity.
The species selected for the available battery of bioassays differ taxonomically and
play different roles in aquatic ecosystems. Else, they have different routes of exposure
to bio-potential.
Although many bioassays provide information about the overall toxicity induced, new
test systems are developed and used for the determination of specific toxicity in a
number of biological pathways disrupted by contaminants.
Hereby, the list of bioassay tests used in aquatic ecosystems assessment is updated
besides specific toxicity pathways for almost invertebrate and vertebrate aquatic
species used to determine organic and inorganic pollutants effects.
The Challenge of Microplastics in Aquatic Ecosystem: A Review of Current Consensus and Future Trends of the Effect on the Fish
Page: 54-67 (14)
Author: Tamer El-Sayed Ali*
DOI: 10.2174/9789815179064123010005
PDF Price: $15
Abstract
In recent decades, the prevalence of plastics in the marine environment has
increased and is amongst the most pervasive problems affecting the marine
environment globally. Numerous studies have documented microplastic ingestion by
marine species with more recent investigations focusing on the secondary impacts of
microplastic ingestion on ecosystem processes. However, few studies so far have
examined microplastic ingestion by mesopelagic fish which are one of the most
abundant pelagic groups in the oceans and their vertical migrations are known to
contribute significantly to the rapid transport of carbon and nutrients to the deep sea.
Therefore, any ingestion of microplastics by mesopelagic fish may adversely affect this
cycling and may aid in the transport of microplastics from surface waters to the deep-sea benthos.
Microplastics are ubiquitous in the marine environment and are increasingly
contaminating species in the marine ecosystem and the food chain, including food
stuffs intended for human consumption. The effects of microplastics on aquatic
organisms are currently the subject of intense research. Here, we provide a critical
perspective on published studies of microplastic ingestion by aquatic biota. We
summarize the available research on Microplastic presence, behavior, and effects on
aquatic organisms monitored in the field and laboratory studies of the ecotoxicological
consequences of microplastic ingestion.
Finally, researchers plan further studies to learn more about how these fish are
ingesting and spreading microplastics. It will be particularly interesting to see whether
the fish ingest these microplastics directly as mistaken prey items, or whether they
ingest them through eating prey species, which have previously ingested the
microplastics. Also, there is a need to understand the mechanism of action and
ecotoxicological effects of environmentally relevant concentrations of microplastics on
aquatic organism health.
Overview of Marine Plastic Pollution in the Moroccan Mediterranean
Page: 68-84 (17)
Author: Bilal Mghili*, Mohamed Analla and Mustapha Aksissou
DOI: 10.2174/9789815179064123010006
PDF Price: $15
Abstract
Plastic debris has become the main component of marine litter in the
Moroccan Mediterranean due to the massive consumption of plastic and poor plastic
waste management. In Morocco, plastic pollution has been a subject of increasing
environmental concern in the last few years. This literature review was conducted to
collect current data on plastic pollution in the Moroccan Mediterranean, considering
the presence of marine debris as well as macroplastics and microplastics in different
compartments. Our study shows that, until now, very few studies have been carried out
and there is a lack of information, especially on the prevalence of plastic debris in the
water environment, sea floor, and aquatic animals. In general, plastic is the most
predominant waste on the beaches of the Moroccan Mediterranean, always contributing
to more than 50% of the total composition of the waste encountered. Based on the
records, tourism, recreational activities, and fishing are one of the main sources of
plastic accumulation in the Moroccan Mediterranean. This was due to a lack of
awareness among beach users. Awareness and behavior change is key to minimizing
plastic waste on Morocco's beaches and coasts. In addition, all aspects of waste
management must be improved. The beaches of the Moroccan Mediterranean have also
been contaminated by microplastics. A significant positive correlation was also
observed between human population density and industrial activity on microplastic
abundance. Microplastic has only been found in a few commercial fish species and sea
turtles, but more work will be needed in the future.
Potential Ecological Impacts of Rare Earth Elements in the Marine Environment: A Baseline for Future Research
Page: 85-102 (18)
Author: Ahmed Mandour*
DOI: 10.2174/9789815179064123010007
PDF Price: $15
Abstract
Rare earth elements (REE) have become a strategic commodity of
contemporary economies due to their various uses in the technological, smart, and
renewable energy industries. The boom of their uses resulted in an increased influx to
the marine environment either as a result of mining or industrial discharges, or from the
disposal of solid wastes, atmospheric fallout for military tests of smart weapons, and
remobilization from the sediments. Although sediments are the main reservoir of REE
in the marine environment, and their auspicious normalization patterns are useful
geochemical tracers, it has been found that anthropogenic contributions influence
REE’s natural occurrence. This indeed has raised concerns about the potential
ecological impacts of REE on the marine biota and in turn on human health. The
chapter gives some insights into the sources and potential ecological impacts of REE
while revealing the need for future research and the knowledge gap about the REE and
their ecological impacts as a group and as individual elements, as well as some
potential solutions to the increased anthropogenic influx of REE to the marine
environment. The potential ecological impacts of REE influx to the marine
environment constitute both their bioavailability and their toxicity. Predicted ecological
impacts on the marine biota may be similar to other trace metals, sharing analogous
chemical characteristics. Nevertheless, whether LREE or HREE are more toxic is
debatable, and their physiological and cytological effects on different organisms are
still under investigation. This prompts the need for a new understanding of REE’s
ecological impacts by focusing on influx rates, ecotoxicity, and mitigation of ecological
impacts.
Subject Index
Page: 103-107 (5)
Author: Tamer El-Sayed Ali
DOI: 10.2174/9789815179064123010008
PDF Price: $15
Introduction
Pollution of the aquatic environment is a real threat across the globe. It is becoming a topic of intense study for researchers. It has been updated and almost completely revised. The Mediterranean Sea has been recognized as a target hotspot of the world as the pollutant concentration in this region is greater than the levels in other oceans. The book summarizes research on marine pollutants in the Mediterranean Sea. It presents 5 concise reviews focusing on microplastics, rare earth elements and biotoxins – which are now commonly found in the region. The Editors also emphasize on pollution problems in the Mediterranean region, with 2 chapters presenting studies on Lebanon and Morocco, respectively. The book adds to the collective information on Mediterranean marine pollution. Additionally, references are included at the end of each chapter for the benefit of advanced readers. The contributions also include discussions on important techniques used to monitor and control marine pollution, such as the bio-monitoring of effluents, and ecological impact assessment of microplastic pollution on fish and the environment.