Results 201 to 210 of about 45,656 (264)
Business Strategy and the Environment, EarlyView.ABSTRACT This study integrates multidimensional sustainability indicators into a unified assessment approach to evaluate circular strategies in agri‐food industry businesses. This methodological approach is applied to empirically examine the case of the olive oil industry's by‐product valorization.
David Polonio +3 more
wiley +1 more source
Business Strategy and the Environment, EarlyView.ABSTRACT The agri‐food industry faces major sustainability challenges, requiring a shift in companies' approach. Circular economy principles offer a promising path by enhancing resource efficiency, reducing waste, and valorizing by‐products. However, the integration of sustainability and circularity practices remains limited, especially in developing ...
Maria Elena Latino +2 more
wiley +1 more source
Business Strategy and the Environment, EarlyView.ABSTRACT How do wineries design sustainability practices and use environmental management accounting (EMA)? This study addresses that question by analyzing the influence of contingency factors on the adoption of sustainability practices and the use of EMA tools to improve the environmental performance of wineries. The research was carried out through a
Andréia Cittadin +2 more
wiley +1 more source
Business Strategy and the Environment, EarlyView.ABSTRACT Quantitative and perceptual studies have been used to define and model sustainable tourist behaviour in past years, but few studies have undertaken qualitative research of actual behaviour to delve deeper into understanding the different classifications of such behaviour. This research employed a three‐phase design, comprising a pretrip survey,
Rachel Dodds, Mark Robert Holmes
wiley +1 more source
Annual Reports to the ESA Council ESA 110th Annual Meeting July, 2025
The Bulletin of the Ecological Society of America, EarlyView.
wiley +1 more source
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Balancing insect energy budgets
Oecologia, 1985Energy budgets are based upon the equation C=P P + R + FU, where C = Consumption, P = Production, R = Respiration, and FU= Rejecta (comprising F, egesta, and U, excreta). In studies of insect energetics where all four quantities have been measured, the completed budget rarely balances.
openaire +2 more sources
2012
Earth’s energy imbalance is the difference between the amount of solar energy absorbed by the Earth and the amount of energy it radiates to space as heat. If the imbalance is positive, more energy coming in than going out, we can expect Earth to become warmer.
G. Thomas Farmer, John Cook
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Earth’s energy imbalance is the difference between the amount of solar energy absorbed by the Earth and the amount of energy it radiates to space as heat. If the imbalance is positive, more energy coming in than going out, we can expect Earth to become warmer.
G. Thomas Farmer, John Cook
openaire +1 more source
Bulletin of the American Meteorological Society, 2009
An update is provided on the Earth's global annual mean energy budget in the light of new observations and analyses. In 1997, Kiehl and Trenberth provided a review of past estimates and performed a number of radiative computations to better establish the role of clouds and various greenhouse gases in the overall radiative energy flows, with top-of ...
Kevin E. Trenberth +2 more
openaire +1 more source
An update is provided on the Earth's global annual mean energy budget in the light of new observations and analyses. In 1997, Kiehl and Trenberth provided a review of past estimates and performed a number of radiative computations to better establish the role of clouds and various greenhouse gases in the overall radiative energy flows, with top-of ...
Kevin E. Trenberth +2 more
openaire +1 more source
1980
Organisms are comprised of cells, which are highly organized groupings of complex molecules. To maintain the degree of organization making up life, energy of the right magnitude is necessary. One learns from thermodynamics that the natural trend of the universe is to go toward increased entropy, i.e., from a degree of order toward more disorder.
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Organisms are comprised of cells, which are highly organized groupings of complex molecules. To maintain the degree of organization making up life, energy of the right magnitude is necessary. One learns from thermodynamics that the natural trend of the universe is to go toward increased entropy, i.e., from a degree of order toward more disorder.
openaire +1 more source
1999
Abstract Previous chapters have told us how much energy is needed for particular functions such as growth, maintaining body temperature, or running at some particular speed. Now we ask how much energy animals use in their everyday lives, and how it is divided between functions.We have seen how animals ‘ rates of energy consumption have ...
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Abstract Previous chapters have told us how much energy is needed for particular functions such as growth, maintaining body temperature, or running at some particular speed. Now we ask how much energy animals use in their everyday lives, and how it is divided between functions.We have seen how animals ‘ rates of energy consumption have ...
openaire +1 more source