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991.
Spatial and Temporal Variations in Eastern U.S. Hydrology: Responses to Global Climate Variability 下载免费PDF全文
Dongmei Feng Edward Beighley Randall Hughes David Kimbro 《Journal of the American Water Resources Association》2016,52(5):1089-1108
Coastal ecosystems are dependent on terrestrial freshwater export which is affected by both climate trends and natural climate variability. However, the relative role of these factors is not clear. Here, both climate trends and internal climate variabilities at different time scales are related to variations in terrestrial freshwater export into the eastern United States (U.S.) coastal region. For the recent 35‐year period, the intensified hydro‐meteorological processes (annual precipitation or evapotranspiration) may explain the observed streamflow variability in the northeast. However, in the southeast, streamflow is positively correlated with climate variability induced by the Pacific Ocean conditions (El Nino‐Southern Oscillation [ENSO] and Pacific Decadal Oscillation) rather than Atlantic Ocean conditions (Atlantic Multi‐decadal Oscillation and North Atlantic Oscillation). The centroid location for volume of terrestrial freshwater export integrated along the eastern U.S. has a positive temporal trend and is negatively correlated with ENSO conditions, suggesting the northward trend in freshwater export to U.S. eastern coast may be disturbed by the natural climate variability, especially ENSO conditions, i.e., the center of freshwater mass moves southward (northward) during El Nino (La Nina) years. The results indicate the spatial and temporal variations in freshwater export from the eastern U.S. are affected by both climate change and inter‐annual climate variability during the recent 35‐year period (1980‐2014). 相似文献
992.
We study theoretically and numerically the effects of an environmental tax reform using endogenous growth theory. In the theoretical segment, mobile labor between manufacturing and R&D activities, and elasticity of substitution between labor and energy in manufacturing lower than unity allow for a growth dividend, even if we consider preexisting tax distortions. The scope for innovation is reduced when we consider direct financial investment in the lab, or elastic labor supply. We then apply the core theoretical model to a real growing economy and find that a boost in long-run economic growth following such a carbon policy is a possible outcome. Redistribution of additional carbon tax revenue by lowering capital taxation performs best in terms of effciency measured by aggregate welfare. In terms of equity among social segments the progressive character of lump-sum redistribution fails when we consider very high emissions reduction targets. 相似文献
993.
Agricultural productivity growth is vital for economic and food security outcomes which are threatened by climate change. In response, governments and development agencies are encouraging the adoption of ‘climate-smart’ agricultural technologies, such as conservation agriculture (CA). However, there is little rigorous evidence that demonstrates the effect of CA on production or climate resilience, and what evidence exists is hampered by selection bias. Using panel data from Zimbabwe, we test how CA performs during extreme rainfall events - both shortfalls and surpluses. We control for the endogenous adoption decision and find that use of CA in years of average rainfall results in no yield gains, and in some cases yield loses. However, CA is effective in mitigating the negative impacts of deviations in rainfall. We conclude that the lower yields during normal rainfall seasons may be a proximate factor in low uptake of CA. Policy should focus promotion of CA on these climate resilience benefits. 相似文献
994.
Greening of the Arctic due to climate warming may provide herbivores with richer food supplies, resulting in higher herbivore densities. In turn, this may cause changes in vegetation composition and ecosystem function. In 1982-1984, we studied the ecology of non-breeding moulting geese in Jameson Land, low Arctic East Greenland. By then, geese consumed most of the graminoid production in available moss fens, and it appeared that the geese had filled up the available habitat. In 2008, we revisited the area and found that the number of moulting geese and the temperature sum for June-July had tripled, while the above-ground biomass in a moss fen ungrazed by geese had more than doubled. In a goose-grazed fen, the overall plant composition was unchanged, but the frequency of graminoids had decreased and the area with dead vegetation and open spots had increased. We suggest that climate warming has lead to increased productivity, allowing for higher numbers of moulting geese. However, the reduction of vegetation cover by grazing may have longer term negative consequences for the number of geese the habitat can sustain. 相似文献
995.
Melissa C. Day Spyros N. Pandis 《Atmospheric environment (Oxford, England : 1994)》2011,45(36):6546-6556
Changes in summertime organic aerosol (OA) concentrations in the Eastern U.S. are investigated for different temperature change scenarios using the chemical transport model PMCAMx-2008. OA is simulated using the volatility basis set approach, assuming that the primary emissions are semi-volatile and that the intermediate volatile and semi-volatile organic compounds are oxidized in the gas phase, resulting in products with lower volatility. For the basic temperature change scenario where biogenic emissions are kept constant, ground-level OA decreases by −0.3% K−1 on average. Increases in the north (+0.1% K−1) and decreases in the south (−0.5% K−1) are predicted. The effect of the uncertain temperature dependence of the aging rate constant is modest, changing the OA by only 0.1% K−1 over the temperature-independent case. For the more realistic scenario in which biogenic OA precursor emissions are allowed to increase with temperature (up to 10% K−1), however, average OA increases by 4.1% K−1, with even higher increases in southern regions. These results suggest that as temperature increases, complicated changes in production, partitioning and chemical aging will take place. Nevertheless, the change in biogenic emissions and subsequent production of biogenic OA is more than an order of magnitude more important than the changes in the rates of chemical and physical atmospheric processes. 相似文献
996.
Previous research showed a regional Cu enrichment of 6 mg kg−1 in the top soil of the Ypres war zone (Belgium), caused by corrosion of WWI shell fragments. Further research was required
since in addition to Cu, also As, Pb, and Zn were used during the manufacturing of ammunition. Therefore, an additional data
collection was conducted in which the initial Cu data set was tripled to 731 data points and extended to eight heavy metals
(As, Cd, Cr, Cu, Hg, Ni, Pb, and Zn) which permitted (1) to evaluate the environmental impact of the heavy metals at a regional
scale and (2) to assess their regional spatial occurrence by performing an optimized geostatistical modeling. The results
showed no pollution at a regional scale, but sometimes locally concentrations exceeded the soil sanitation threshold, especially
for Cu, Pb, and Zn. The spatial patterns of Ni and Cr were related to variations in soil texture whereas the occurrences of
Cu and Pb were clearly linked to WWI activities. This difference in spatial behavior was confirmed by an analysis of coregionalization. 相似文献
997.
Rapid changes to the Arctic hydrological cycle challenge both our process understanding and our ability to find appropriate
adaptation strategies. We have investigated the relevance and accuracy development of climate change projections for assessment
of water cycle changes in major Arctic drainage basins. Results show relatively good agreement of climate model projections
with observed temperature changes, but high model inaccuracy relative to available observation data for precipitation changes.
Direct observations further show systematically larger (smaller) runoff than precipitation increases (decreases). This result
is partly attributable to uncertainties and systematic bias in precipitation observations, but still indicates that some of
the observed increase in Arctic river runoff is due to water storage changes, for example melting permafrost and/or groundwater
storage changes, within the drainage basins. Such causes of runoff change affect sea level, in addition to ocean salinity,
and inland water resources, ecosystems, and infrastructure. Process-based hydrological modeling and observations, which can
resolve changes in evapotranspiration, and groundwater and permafrost storage at and below river basin scales, are needed
in order to accurately interpret and translate climate-driven precipitation changes to changes in freshwater cycling and runoff.
In contrast to this need, our results show that the density of Arctic runoff monitoring has become increasingly biased and
less relevant by decreasing most and being lowest in river basins with the largest expected climatic changes. 相似文献
998.
Bayramin I Basaran M Erpul G Canga MR 《Environmental monitoring and assessment》2008,140(1-3):249-265
There has been increasing concern in highlands of semiarid Turkey that conversion of these systems results in excessive soil
erosion, ecosystem degradation, and loss of sustainable resources. An increasing rate of land use/cover changes especially
in semiarid mountainous areas has resulted in important effects on physical and ecological processes, causing many regions
to undergo accelerated environmental degradation in terms of soil erosion, mass movement and reservoir sedimentation. This
paper, therefore, explores the impact of land use changes on land degradation in a linkage to the soil erodibility, RUSLE-K,
in Cankiri–Indagi Mountain Pass, Turkey. The characterization of soil erodibility in this ecosystem is important from the
standpoint of conserving fragile ecosystems and planning management practices. Five adjacent land uses (cropland, grassland,
woodland, plantation, and recreational land) were selected for this research. Analysis of variance showed that soil properties
and RUSLE-K statistically changed with land use changes and soils of the recreational land and cropland were more sensitive
to water erosion than those of the woodland, grassland, and plantation. This was mainly due to the significant decreases in
soil organic matter (SOM) and hydraulic conductivity (HC) in those lands. Additionally, soil samples randomly collected from
the depths of 0–10 cm (D
1) and 10–20 cm (D
2) with irregular intervals in an area of 1,200 by 4,200 m sufficiently characterized not only the spatial distribution of
soil organic matter (SOM), hydraulic conductivity (HC), clay (C), silt (Si), sand (S) and silt plus very fine sand (Si + VFS)
but also the spatial distribution of RUSLE-K as an algebraically estimate of these parameters together with field assessment
of soil structure to assess the dynamic relationships between soil properties and land use types. In this study, in order
to perform the spatial analyses, the mean sampling intervals were 43, 50, 64, 78, 85 m for woodland, plantation, grassland,
recreation, and cropland with the sample numbers of 56, 79, 72, 13, and 69, respectively, resulting in an average interval
of 64 m for whole study area. Although nugget effect and nugget effect–sill ratio gave an idea about the sampling design adequacy,
the better results are undoubtedly likely by both equi-probable spatial sampling and random sampling representative of all
land uses. 相似文献
999.
Global Warming Potential (GWP) is an index used to measure the cumulative radiative forcing of a tonne of greenhouse house
gas (GHG) relative to that of a ‘reference’ gas (CO2). Under the Kyoto Protocol, GWP can be used as a fixed index to govern the trade-off between different GHGs in a multi-gas approach to GHGs abatement. The use of fixed GWPs has
been criticized for not being very cost effective compared to the use of some flexible indices. To gain wider acceptance, however, a flexible index must also prove to be easy to use, and the economic gains from
its adoption must be significant. In this paper, we develop a flexible index based on the concept of marginal rather than cumulative or average global warming potentials. These marginal global warming potentials (MGWPs) can be endogenously
determined within a climate model given a particular climate objective based on radiative forcing level. The MGPWs are then
linked to the marginal abatement costs of the GHGs, which are also endogenously determined within an economic model. When
the two concepts are linked in this way, the result is a cost-effective way of achieving a particular climate change objective
with multigas abatement. We show that the savings in costs when using this flexible MGPWs can be significant, and more importantly,
they are not uniformly distributed across different regions.
相似文献
Claudia KemfertEmail: |
1000.
Restoration of abandoned and degraded ecosystems through enhanced management of mature remnant patches and naturally regenerating (regrowth) forests is currently being used in the recovery of ecosystems for biodiversity protection and carbon sequestration. Knowledge of long-term dynamics of these ecosystems is often very limited. Vegetation models that examine long-term forest growth and succession of uneven aged, mixed-species forest ecosystems are integral to the planning and assessment of the recovery process of biodiversity values and biomass accumulation. This paper examined the use of the Ecosystem Dynamics Simulator (EDS) in projecting growth dynamics of mature remnant brigalow forest communities and recovery process of regrowth brigalow thickets. We used data from 188 long-term monitored plots of remnant and regrowth forests measured between 1963 and 2010. In this study the model was parameterised for 34 tree and shrub species and tested with independent long-term measurements. The model closely approximated actual development trajectories of mature forests and regrowth thickets but some inaccuracies in estimating regeneration through asexual reproduction and mortality were noted as reflected in stem density projections of remnant plots that had a mean of absolute relative bias of 46.2 (±12.4)%. Changes in species composition in remnant forests were projected with a 10% error. Basal area values observed in all remnant plots ranged from 6 to 29 m2 ha−1 and EDS projections between 1966 and 2005 (39 years) were 68.2 (±10.9)% of the observed basal area. Projected live aboveground biomass of remnant plots had a mean of 93.5 (±5.9) t ha−1 compared to a mean of 91.3 (±8.0) t ha−1 observed in the plots. In regrowth thicket, the model produced satisfactory projections of tree density (91%), basal area (89%), height (87%) and aboveground biomass (84%) compared to the observed attributes. Basal area and biomass accumulation in 45-year-old regrowth plots was approximately similar to that in remnant forests but recovery of woody understorey was very slow. The model projected that it would take 95 years for the regrowth to thin down to similar densities observed in original or remnant brigalow forests. These results indicated that EDS can produce relatively accurate projections of growth dynamics of brigalow regrowth forests necessary for informing restoration planning and projecting biomass accumulation. 相似文献