31 research outputs found
Introduction to industrial control networks
An industrial control network is a system of interconnected
equipment used to monitor and control physical
equipment in industrial environments. These networks differ
quite significantly from traditional enterprise networks due to
the specific requirements of their operation. Despite the functional
differences between industrial and enterprise networks,
a growing integration between the two has been observed. The
technology in use in industrial networks is also beginning to
display a greater reliance on Ethernet and web standards,
especially at higher levels of the network architecture. This has
resulted in a situation where engineers involved in the design
and maintenance of control networks must be familiar with
both traditional enterprise concerns, such as network security,
as well as traditional industrial concerns such as determinism
and response time. This paper highlights some of the differences
between enterprise and industrial networks, presents a brief
history of industrial networking, gives a high level explanation
of some operations specific to industrial networks, provides an
overview of the popular protocols in use and describes current
research topics. The purpose of this paper is to serve as an
introduction to industrial control networks, aimed specifically at
those who have had minimal exposure to the field, but have some
familiarity with conventional computer networks.http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=9739hb2016Electrical, Electronic and Computer Engineerin
What goes in, must come out:combining scat-based molecular diet analysis and quantification of ingested microplastics in a marine top predator
Context: Microplastics (plastic particles <5 mm in size) are highly available for ingestion by a wide range of organisms, either through direct consumption or indirectly, via trophic transfer, from prey to predator. The latter is a poorly understood, but potentially major, route of microplastic ingestion for marine top predators.Approach: We developed a novel and effective methodology pipeline to investigate dietary exposure of wild top predators (grey seals; Halichoerus grypus) to microplastics, by combining scat-based molecular techniques with a microplastic isolation method. We employed DNA metabarcoding, a rapid method of biodiversity assessment, to garner detailed information on prey composition from scats, and investigated the potential relationship between diet and microplastic burden.Results: Outcomes of the method development process and results of both diet composition from metabarcoding analysis and detection of microplastics are presented. Importantly, the pipeline performed well and initial results suggest the frequency of microplastics detected in seal scats may be related to the type of prey consumed. Conclusions: Our non-invasive, data rich approach maximises time and resource-efficiency, while minimising costs and sample volumes required for analysis. This pipeline could be used to underpin a much-needed increase in understanding of the relationship between diet composition and rates of microplastic ingestion in high trophic-level species.<br/
Plastic and marine turtles: a review and call for research
Plastic debris is now ubiquitous in the marine environment affecting a wide range of taxa, from microscopic zooplankton to large vertebrates. Its persistence and dispersal throughout marine ecosystems has meant that sensitivity toward the scale of threat is growing, particularly for species of conservation concern, such as marine turtles. Their use of a variety of habitats, migratory behaviour, and complex life histories leave them subject to a host of anthropogenic stressors, including exposure to marine plastic pollution. Here, we review the evidence for the effects of plastic debris on turtles and their habitats, highlight knowledge gaps, and make recommendations for future research. We found that, of the seven species, all are known to ingest or become entangled in marine debris. Ingestion can cause intestinal blockage and internal injury, dietary dilution, malnutrition, and increased buoyancy which in turn can result in poor health, reduced growth rates and reproductive output, or death. Entanglement in plastic debris (including ghost fishing gear) is known to cause lacerations, increased dragâwhich reduces the ability to forage effectively or escape threatsâand may lead to drowning or death by starvation. In addition, plastic pollution may impact key turtle habitats. In particular, its presence on nesting beaches may alter nest properties by affecting temperature and sediment permeability. This could influence hatchling sex ratios and reproductive success, resulting in population level implications. Additionally, beach litter may entangle nesting females or emerging hatchlings. Lastly, as an omnipresent and widespread pollutant, plastic debris may cause wider ecosystem effects which result in loss of productivity and implications for trophic interactions. By compiling and presenting this evidence, we demonstrate that urgent action is required to better understand this issue and its effects on marine turtles, so that appropriate and effective mitigation policies can be developed
Microplastic ingestion ubiquitous in marine turtles
Despite concerns regarding the environmental impacts of microplastics, knowledge of the incidence and levels of synthetic particles in large marine vertebrates is lacking. Here, we utilize an optimized enzymatic digestion methodology, previously developed for zooplankton, to explore whether synthetic particles could be isolated from marine turtle ingesta. We report the presence of synthetic particles in every turtle subjected to investigation (n = 102) which included individuals from all seven species of marine turtle, sampled from three ocean basins (Atlantic [ATL]: n = 30, four species; Mediterranean (MED): n = 56, two species; Pacific (PAC): n = 16, five species). Most particles (n = 811) were fibres (ATL: 77.1% MED: 85.3% PAC: 64.8%) with blue and black being the dominant colours. In lesser quantities were fragments (ATL: 22.9%: MED: 14.7% PAC: 20.2%) and microbeads (4.8%; PAC only; to our knowledge the first isolation of microbeads from marine megavertebrates). Fourier transform infrared spectroscopy (FTâIR) of a subsample of particles (n = 169) showed a range of synthetic materials such as elastomers (MED: 61.2%; PAC: 3.4%), thermoplastics (ATL: 36.8%: MED: 20.7% PAC: 27.7%) and synthetic regenerated cellulosic fibres (SRCF; ATL: 63.2%: MED: 5.8% PAC: 68.9%). Synthetic particles being isolated from species occupying different trophic levels suggest the possibility of multiple ingestion pathways. These include exposure from polluted seawater and sediments and/or additional trophic transfer from contaminated prey/forage items. We assess the likelihood that microplastic ingestion presents a significant conservation problem at current levels compared to other anthropogenic threats
Climate drives the geography of marine consumption by changing predator communities
Este artĂculo contiene 7 pĂĄginas, 3 figuras, 1 tabla.The global distribution of primary production and consumption by
humans (fisheries) is well-documented, but we have no map linking
the central ecological process of consumption within food
webs to temperature and other ecological drivers. Using standardized
assays that span 105° of latitude on four continents, we show
that rates of bait consumption by generalist predators in shallow
marine ecosystems are tightly linked to both temperature and the
composition of consumer assemblages. Unexpectedly, rates of
consumption peaked at midlatitudes (25 to 35°) in both Northern
and Southern Hemispheres across both seagrass and unvegetated
sediment habitats. This pattern contrasts with terrestrial systems,
where biotic interactions reportedly weaken away from the equator,
but it parallels an emerging pattern of a subtropical peak in
marine biodiversity. The higher consumption at midlatitudes was
closely related to the type of consumers present, which explained
rates of consumption better than consumer density, biomass, species
diversity, or habitat. Indeed, the apparent effect of temperature
on consumption was mostly driven by temperature-associated turnover
in consumer community composition. Our findings reinforce
the key influence of climate warming on altered species composition
and highlight its implications for the functioning of Earthâs
ecosystems.We acknowledge funding from the Smithsonian
Institution and the Tula Foundation.Peer reviewe
Responses of juvenile rainbow trout and benthic invertebrate communities exposed to effluents from a molybdenum mine in central British Columbia
As part of the Metal Mining Effluent Regulations (MMER) under the Fisheries Act, mines are required to
conduct a tiered Environmental Effects Monitoring (EEM) program. The objective of the EEM program
is to evaluate the effects of mine effluent on fish, fish habitat (i.e., benthic invertebrates), and use of the
fisheries resource. Endako Mine is an open-pit molybdenum mine located on the Nechako Plateau in
central British Columbia, about 160 km northwest of Prince George. For Endakoâs Cycle One EEM
program, a non-lethal survey of juvenile rainbow trout was conducted to assess the potential impacts of
mine effluents discharged into lower Sweetnam Creek (exposure area) on fish survival, condition, growth,
and reproduction relative to fish collected from a reference area (Allin Creek). Benthic invertebrate
communities were sampled in the exposure area (lower Sweetnam Creek) and compared to benthic
invertebrate communities sampled in two reference areas; Allin Creek and North Un-named Creek (a
naturally metal-rich area). Results of the non-lethal fish survey and benthic invertebrate survey will be
discussed as well as challenges associated with designing and conducting environmental monitoring
programs for existing and future mining operations in this area of British Columbia.Non UBCUnreviewedOthe