The article quantifies the size of ‘hidden’ social costs that are incurred by forestry offsets in the voluntary market that
promise to offset present emissions sometime in the future. It does this by estimating the difference between the social costs
of carbon (C) emitted and of costs offset by removal of C from the atmosphere by reforestation/afforestation. All current
attempts to make forestry offsets more reliable focus on quality control rather than the mismatch of the timing of emissions
and their offset. Recommendations that follow from the analysis are twofold. First, that markets for carbon dioxide equivalent
(CO2e) removals by voluntary offsets should be confined to the annual incremental removals actually achieved. Second, the
promoters of voluntary offsets projects should declare the annual stream of carbon credits and debits expected so that buyers
can place a present value on such projects. 相似文献
Field observations indicating that uniform gas flow at the precipitator outlet may not result in best performance led to a study of how reentrainment and changes in gas distribution within a precipitator affect performance. A computer model developed in the study predicts that an improvement over uniform flow performance is possible by using controlled nonuniform gas distributions at both the inlet and the outlet faces of the precipitator. The model was used to study how changes in precipitator side view geometry affect performance and offers explanations for the reduction in precipitation constants experienced with larger installations.相似文献
Ecological theory suggests that both dispersal limitation and resource limitation can exert strong effects on community assembly. However, empirical studies of community assembly have focused almost exclusively on communities with a single trophic level. Thus, little is known about the combined effects of dispersal and resource limitation on assembly of communities with multiple trophic levels. We performed a landscape-scale experiment using spatially arranged mesocosms to study effects of dispersal and resource limitation on the assembly dynamics of aquatic invertebrate communities with two trophic levels. We found that interplay between dispersal and resource limitation regulated the assembly of predator and prey trophic levels in these pond communities. Early in assembly, predators and prey were strongly dispersal limited, and resource (i.e., prey) availability did not influence predator colonization. Later in assembly, after predators colonized, resource limitation was the strongest driver of predator abundance, and dispersal limitation played a negligible role. Thus, habitat isolation affected predators directly by reducing predator colonization rate, and indirectly through the effect of distance on prey availability. Dispersal and resource limitation of predators resulted in a transient period in which predators were absent or rare in isolated habitats. This period may be important for understanding population dynamics of vulnerable prey species. Our findings demonstrate that dispersal and resource limitation can jointly regulate assembly dynamics in multi-trophic systems. They also highlight the need to develop a temporal picture of the assembly process in multi-trophic communities because the availability and spatial distribution of limiting resources (i.e., prey) and the distribution of predators can shift radically over time. 相似文献
Recent Italian laws mandate the consideration of environmental factors in local plans, especially at the provincial level
of government. The plan for the province of Cremona in northern Italy illustrates the integration of the environment in provincial-level
planning. The Cremona plan was developed through an ecological planning approach that occurred from 1994 to 1998. As part
of this process, the planning team designed an environmental sustainability index. This index was integrated with an environmental
capability analysis. To improve the quality of the Cremona landscape, the planning team developed an ecological network. This
network seeks to weave together the natural areas of the province, especially by connecting provincial parks to regional river
parks throughout Lombardy. The experience of the Cremona provincial plan has implications for environmental management elsewhere
in Italy, Europe, and abroad. 相似文献
Discounting is traditionally interpreted as the technique for comparing the values of costs and benefits which occur at different
points in time. It endeavors to incorporate how humans trade off values to be received in the future versus value received
immediately into economic analysis. Interpreted as such, discounting neglects important spatial influences on how values are
compared, thereby hindering cost-benefit analyses of climate change adaptation. In this article, we present new theory on
space-time discounting and use it to analyze aspects of how humans adapt to climate change. Three climate change adaptation
cases are considered. First, analysis of crop indemnity payments to farmers shows that failure to discount across space and
time yields inaccurate evaluations of adaptation projects. Second, adaptation efforts of the Commonwealth of Nations show
irregular patterns of international cooperation that suggest spatial discounting of adaptation which are not found in temporal
discounting. Third, the nexus between climate change, migration, and conflict shows how various forms of space-time discounting
can influence whether climate change and migration will lead to conflict. Collectively, these cases demonstrate the analytical
power of the space-time discounting theory and also show how the complexity of climate change adaptation can challenge and
strengthen this theory. Finally, this article’s analysis demonstrates that proper discounting must include space as well as
time. 相似文献
Economic development has increased pressures on natural resources during the last decades. The concept of planetary boundaries has been developed to propose limits on human activities based on earth processes and ecological thresholds. However, this concept was not developed to downscale planetary boundaries to sub-global level. The absence of boundaries at sub-global levels constrains the use of the concept in environmental governance and natural resource management, because decisions are typically taken at these levels. Decisions at the national level are currently supported, among others, by statistical frameworks in particular the System of National Accounts. However, statistical frameworks were not developed to compile environmental information, hindering environmental decision making. Our study examines if and how ecosystem accounting can be used in combination with the concept of planetary boundaries in guiding human activities at the level of a river basin. We assess the applicability of both frameworks for natural resource management in the Orinoco river basin, based on adaptive management components. Our analysis indicates that differences in the purpose of analysis, information provided, and methods constrain the potential integration of both frameworks. Nevertheless, the way both frameworks conceptualize the social system and the interactions between social and ecological systems can facilitate translating planetary boundaries into indicators considered in ecosystem accounting. The information recorded in national ecosystem accounts can support establishing ecological thresholds and, more fundamentally, to relate ecological thresholds to human impacts on ecosystem condition. Capitalizing on these synergies requires further exchange of experiences between the communities working on ecosystem accounting and planetary boundaries.
In this study, seven soil and sedimentary humic acid samples were analyzed by synchronous scan fluorescence (SSF) spectroscopy. The spectra of these humic acids were compared to each other and characterized, based on three major SSF peaks centered at approximately 281, 367 and 470 nm. Intensity ratios were calculated based on these peaks that were used to numerically assist in source discrimination. All humic acid samples were then reacted with Ferrate(VI) and were again analyzed with SSF. Upon the addition of Ferrate(VI) SSF spectra were obtained which more readily differentiated humic acid source. This method will assist geochemists and water management districts in tracing sources of organic matter to receiving water bodies and may aid in the elucidation of the chemical nature of humic acids. 相似文献