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Environmental Footprint (environmental + footprint)

Distribution by Scientific Domains
Life Sciences25%
Earth and Environmental Science25%

Selected Abstracts

Edible insects: Traditional knowledge or western phobia?

ENTOMOLOGICAL RESEARCH, Issue 5 2009
Alan L. YEN
Abstract With an increasing human population and environmental degradation, the world faces a major problem in providing adequate animal based proteins. Many traditional societies have used or still use insects as a protein source, while westernized societies are reluctant to use insects, despite being the major consumers of animal proteins. We now need to consider insects as a source of food for humans in a manner that acknowledges both the role of entomophagy in indigenous societies and the need for westernized societies to reduce the size of their environmental footprint with regard to food production. The situation on continents such as Africa, Asia, and Central and South America has some parallels to Australia in that there are two forces in operation: the sustainable traditional use of edible insects and the "westernization" of these societies leading to a movement away from entomophagy. However, the potential to reach a compromise is greater in these continents because entomophagy is already accepted. The major challenges will be establishing sustainable production systems that include food safety and security as well as environmental protection. Whether this will happen or not will depend upon: (i) a major change in attitude in westernized societies towards entomophagy; (ii) pressure to conserve remaining habitats in a sustainable manner; (iii) economic impetus to develop food production systems that include insects; and (iv) an acknowledgement that achieving adequate nutrition on a global basis will involve different diets in much of the developed world. [source]

A strategic approach to advancing sustainability at Steelcase

GLOBAL BUSINESS AND ORGANIZATIONAL EXCELLENCE, Issue 3 2006
Allan W. Smith
To minimize its environmental footprint,in fact, to have a positive impact everywhere it operates,Steelcase pursues many paths to sustainability: environmentally friendly facilities and processes, eco-sensitive products and materials that can be re-used and recycled, informing and engaging stakeholders, and sharing learning with others in the industry, to name just a few. Challenging itself to do more through continuous learning and improvement is at the core of a green strategy that has earned accolades for the company. © 2006 Wiley Periodicals, Inc. [source]

Facilitating substance phase-out through material information systems and improving environmental impacts in the recycling stage of a product

NATURAL RESOURCES FORUM, Issue 3 2010
Daniel PaskaArticle first published online: 4 AUG 2010
Abstract The amount of electrical and electronic products is increasing rapidly, and this inevitably leads to the generation of large quantities of waste from these goods. Some of the generated e-waste ends up in regions with sub-standard recycling systems and may be processed under poor conditions. During uncontrolled incineration, halogenated dioxins and furans can be generated from brominated and chlorinated compounds in the products. In order to reduce the health and environmental risks involved in the recycling stage of the life cycle of electronics, an effective design-for-environment process must be established during the product development phase. Knowledge of the chemical substances in the product is crucial to being able to make informed decisions. Through full knowledge of the material content of procured components, phase-outs of unwanted substances, such as halogenated substances, can be performed in an effective manner. Therefore, information is the key to success in phasing-out substances; facilitating compliance of legal provisions for manufacturers of electrical and electronic devices; and improving the environmental footprint of products as they reach the end of the life cycle. After an introduction to the challenges of electronics waste management, this paper describes supply chain information systems and how they are used to facilitate substance phase-outs in the electronics industry. Sony Ericsson has been working with phase-outs of unwanted substances since it was founded in 2001. Through the introduction of a material declaration system that keeps track of all substances in the components used in the company's products, Sony Ericsson has been able to replace unwanted substances to improve environmental impacts at the recycling stage of a product. [source]

T-AKE: Acquiring the Environmentally Sound Ship of the 21st Century

NAVAL ENGINEERS JOURNAL, Issue 3 2006
Cdr. Stephen P. Markle USN (Ret.) P.E.
Department of Defense (DoD) program managers are increasingly challenged with the difficulties of balancing the risks associated with cost, schedule, and performance in an era of intense competition for increasingly scarce resources. Requirements associated with environmental, safety, and health (ESH), in the context of thirty to forty-year service lives, have not been consistently, or in some cases adequately, addressed in DoD programs. Environmental protection (EP) requirements generally do not fit the normal requirements generation and product synthesis model typically applied to weapon system development. As with all requirements, early identification is the key to integration into the total system. Recognition that EP requirements must be integrated at program conception led to development of the ESH Integration Model by the U.S. Navy Lewis and Clark (T-AKE) Auxiliary Cargo Ammunition Ship Program. Institutionalization of this model has enabled the T-AKE Program to establish EP performance requirements for the twelve-ship class that substantially reduce the environmental footprint of the Navy. Compared to the fifteen ships that it will be replacing, T-AKE will require fifty percent less manning and reduce waste streams by seventy percent enabling an annual life cycle cost savings of $5M in ashore waste disposal costs. The T-AKE Program has been the first to achieve the Chief of Naval Operations vision for the "Environmentally Sound Warship of the 21st Century" through design integration of EP requirements. [source]

Water use in the surgical scrub: surgeons can reduce their environmental footprint

ANZ JOURNAL OF SURGERY, Issue 12 2009
David Mitchell MBBS, FRACS(Ortho)
No abstract is available for this article. [source]

Water use in the surgical scrub: surgeons can reduce their environmental footprint

ANZ JOURNAL OF SURGERY, Issue 5 2009
Evan E. Jones BAS (Physiotherapy) (Hons), MB BS
No abstract is available for this article. [source]

Modelling growth and body composition in fish nutrition: where have we been and where are we going?

AQUACULTURE RESEARCH, Issue 2 2010
André Dumas
Abstract Mathematical models in fish nutrition have proven indispensable in estimating growth and feed requirements. Nowadays, reducing the environmental footprint and improving product quality of fish culture operations are of increasing interest. This review starts by examining simple models applied to describe/predict fish growth profiles and progresses towards more comprehensive concepts based on bioenergetics and nutrient metabolism. Simple growth models often lack biological interpretation and overlook fundamental properties of fish (e.g. ectothermy, indeterminate growth). In addition, these models disregard possible variations in growth trajectory across life stages. Bioenergetic models have served to predict not only fish growth but also feed requirements and waste outputs from fish culture operations. However, bioenergetics is a concept based on energy-yielding equivalence of chemicals and has significant limitations. Nutrient-based models have been introduced into the fish nutrition literature over the last two decades and stand as a more biologically sound alternative to bioenergetic models. More mechanistic models are required to expand current understanding about growth targets and nutrient utilization for biomass gain. Finally, existing models need to be adapted further to address effectively concerns regarding sustainability, product quality and body traits. [source]

Long-term field studies: positive impacts and unintended consequences

AMERICAN JOURNAL OF PRIMATOLOGY, Issue 9 2010
Karen B. Strier
Abstract Long-term field studies of wild primates can have far-reaching impacts that transcend their contributions to science. These impacts can benefit not only the study animals, study areas, and local human communities, but they can also have unintended, potentially negative consequences. Examples of some of the positive impacts from the Northern Muriqui Project of Caratinga, in Minas Gerais, Brazil, include contributions to conservation efforts on behalf of this critically endangered species, capacity building through the training of Brazilian students, and employment opportunities for local people through our collaboration with a locally administered NGO that is facilitating ecotourism, education, and reforestation programs. Some concerns about unintended consequences of the research include the effects of our trails and trail traffic on surrounding vegetation and other aspects of the environmental "footprints" that both long-term researchers and short-term visitors may leave. In addition, although precautions against potential health risks from routine exposure to human observers are now standard protocol, little is known about the other ways in which our long-term research presence can affect the primates' experiences or alter their perceptions of their social and ecological environments. Risk analysis, which weighs both the positive and negative impacts can provide useful perspectives for addressing the ethical considerations that can arise during long-term field studies. Am. J. Primatol. 72:772,778, 2010. © 2010 Wiley-Liss, Inc. [source]