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301.
Beier C. Rasmussen L. Pilegaard K. Ambus P. Mikkelsen T. Jensen N. O. Kjøller A. Priemé A. Ladekarl U. L. 《Water, Air, & Soil Pollution: Focus》2001,1(1-2):187-195
The fluxes of the major nitrogen compounds havebeen investigated in many ecosystem studies over the world.However, only in few studies has attention been drawn to theimportance of the fluxes of minor gaseous nitrogen compoundsto complete the nitrogen cycle. In Denmark a detailed study onthe nitrogen cycle in an old beech forest has been implementedin 1997 at Gyrstinge near Sorø, Zealand. The study includesthe fluxes of the gases NO, N2O and water mediatedtransport of NO3
- and NH4
+. Measurementsof the fluxes of the gaseous compounds are performed withmicro-meteorological methods (eddy-correlation and gradient)and with chambers. Water mediated fluxes encompass rain,throughfall, stem-flow and leaching from the root zone. Thehydrological model is verified by TDR measurements. The findings show that the total water mediated N input tothe forest floor with throughfall and stemflow was 25.6 kg Nha-1 yr -1, and open field wet deposition withprecipitation was 19.0 kg N ha-1 yr -1. The internalcycling of N in the ecosystem measured as turnover oflitterfall and plant uptake was 100 kg N ha-1 yr -1and 14 kg N ha-1 yr -1, respectively. The fluxes ofthe gaseous N compounds NO and N2O were of minorimportance for the total N turnover in the forest, NOxemission being <1 kg N ha-1 yr -1 and N2Oemission from the soil being 0.5 kg N ha-1 yr -1 withno significant difference between wet and dry soils.Concentrations of NO3
- and NH4
+ in thesoil solution beneath the rooting zone are very small andconsequently the N leaching is almost negligible. It isconcluded that the nitrogen mass balance of this old beechforest ecosystem mainly is controlled by the input by dry andwet deposition and a large internal N cycle with a fast litterturnover. The nitrogen input tothe forest ecosystem which currently exceeds the critical loadby 5 kg N ha-1 yr -1is mainly accumulated in the soil and no significant nitrateleaching is occurring. 相似文献
302.
A saturation of climate–carbon cycle feedback was found earlier in the simulations with the IAP RAS climate model of intermediate complexity. Here, this eventual saturation is interpreted by using a conceptual linearised coupled model. It is shown that this saturation is due to weak, logarithmic, dependence of the carbon dioxide radiative forcing on its atmospheric concentration. This eventual saturation leads to the non-monotonic behaviour of climate–carbon cycle parameter f in time. If the time scale of the atmospheric CO2 build up is tp then, starting from an initial equilibrium, f approaches maximum in time ?tp. Afterwards, climate–carbon cycle parameter decreases and eventually tends to unity. The time scale of the latter decrease is t1=(1−5)tp. A dependence of tm and t1 on governing parameters of the conceptual model is studied. It is argued that an eventual saturation of the climate–carbon cycle feedback is expected to occur also in the other integrations of sufficient length with coupled climate–carbon cycle models. 相似文献
303.
The method is used for calculating regional urban area dynamics and the resulting carbon emissions (from the land-conversion) for the period of 1980 till 2050 for the eight world regions. This approach is based on the fact that the spatial distribution of population density is close to the two-parametric Γ-distribution [Kendall, M.G., Stuart, A., 1958. The Advanced Theory of Statistics, vol. 1.2. Academic Press, New York; Vaughn, R., 1987. Urban Spatial Traffic Patterns, Pion, London]. The developed model provides us with the scenario of urbanisation, based on which the regional and world dynamics of carbon emissions and export from cities, and the annual total urban carbon balance are estimated. According to our estimations, world annual emissions of carbon as a result of urbanisation increase up to 1.25 GtC in 2005 and begin to decrease afterwards. If we compare the emission maximum with the annual emission caused by deforestation, 1.36 GtC per year, then we can say that the role of urbanised territories (UT) in the global carbon balance is of a comparable magnitude. Regarding the world annual export of carbon from UT, we observe its monotonous growth by three times, reaching 505 MtC. The latter, is comparable to the amount of carbon transported by rivers into the ocean (196–537 MtC). The current model shows that urbanisation is inhibited in the interval 2020–2030, and by 2050 the growth of urbanised areas would almost stop. Hence, the total balance, being almost constant until 2000, then starts to decrease at an almost constant rate. By the end of the XXI century, the total carbon balance will be equal to zero, with the exchange flows fully balanced, and may even be negative, with the system beginning to take up carbon from the atmosphere, i.e., becomes a “sink”. The regional dynamics is somewhat more complex, i.e., some regions, like China, Asia and Pacific are being active sources of Carbon through the studied period, while others are changing from source to sink or continue to be neutral in respect the GCC. 相似文献
304.
Modeling the carbon cycle of urban systems 总被引:2,自引:0,他引:2
Although more than 80% of carbon dioxide emissions originate in urban areas, the role of human settlements in the biosphere evolution and in global carbon cycling remains largely neglected. Understanding the relationships between the form and pattern of urban development and the carbon cycle is however crucial for estimating future trajectories of greenhouse gas concentrations in the atmosphere and can facilitate mitigation of climate change. In this paper I review state-of-the-art in modeling of urban carbon cycle. I start with the properties of urban ecosystems from the ecosystem theory point of view. Then I discuss key elements of an urban system and to which degree they are represented in the existing models. In conclusions I highlight necessity of including biophysical as well as human related carbon fluxes in an urban carbon cycle model and necessity of collecting relevant data. 相似文献
305.
306.
The HBV-N model was used for a scenario analysis of changes in nitrogen retention and transport caused by alterations of
wetness due to land drainage, lowering of lakes, building of dams and climatic variability in a river basin in south-central
Sweden (1885–1994). In general, dams were situated in locations more favourable for retention, compared to the lowered lakes.
Rather modest conversions of water bodies only changed nitrogen transport by about 3%. The 180-times-larger increase of (mainly)
tile-drained agricultural land had, according to simulations, increased the nitrogen transport by 17%, due to reduced retention.
However, compared to human-induced alteration of the landscape N retention, the choice of 10-year periods of climatological
data had the overriding effect on the calculated nitrogen transport. Weather-induced variations resulted in a 13% difference
in nitrogen retention between various 10-year periods. When the model was driven by climatological data from the driest 10-year
period (1905–1914), the estimated average annual load was only half of that obtained with climatological data from the wettest
10-year period (1975–1984).
Electronic Publication 相似文献
307.
选取参与碳固定的二磷酸羧化/加氧酶基因(cbbM)、有机碳降解的淀粉酶基因(amylase)和纤维素酶基因(cellulase)作为分子标记,用实时定量PCR方法对温带亚高山华北落叶松(Larix gmelinii var.principis-rupprechtii)林、白杄(Picea meyeri)林、青杄(P.wilsonii)林和油松(Pinus tabulaeformis)林土壤碳循环功能微生物类群丰度的时空动态开展研究.结果显示,总碳(TC)、总氮(TN)、总硫(TS)、有机质(OM)和有机碳(TOC)、pH值、铵态氮(NH4+-N)、硝态氮(NO3--N)、过氧化氢酶、蔗糖酶和脲酶活性在4种森林土壤中都有不同程度的差异,且有显著的季节变化特征.高海拔华北落叶松林土壤TC、TN、TS、C/N、OM和TOC含量最高,而pH值最低.土壤TC、TN、亚硝态氮(NO2--N)含量、蔗糖酶和脲酶活性,与碳循环微生物类群的丰度呈极显著相关.土壤NO3--N含量与有机碳分解和固碳微生物类群的相对丰度显著相关;土壤C/N、NO2--N、pH值、OM、TOC、过氧化氢酶及脲酶活性,与降解易分解碳(labile C)和难分解碳(recalcitrant C)的微生物类群的相对丰度呈极显著相关.植被类型和季节变化共同影响土壤碳循环微生物类群的丰度,而季节变化是主导因素.植被和土壤环境因子通过调控微生物群落碳代谢功能类群的结构,影响森林土壤碳源-汇的平衡. 相似文献
308.
Thousands of mammals are killed annually from vehicle collisions, making the issue an important one for conservation biologists
and environmental managers. We recorded all readily identifiable kills on or immediately adjacent to roads in the southern
Great Plains from March 2004–March 2007. We also recorded distance traveled, whether a road was paved or divided, the number
of lanes, and prevailing habitat. Surveys were opportunistic and were conducted by car during conditions of good visibility.
Over our 239 surveys and >16,500 km traveled, we recorded 1412 roadkills from 18 different mammal species (size ranged from
Sciurus squirrels to the white-tailed deer, Odocolieus virginianus). The overall kill rate was 8.50 / 100 km. Four species were prone to collisions: the Virginia opossum (Didelphis virginiana), nine-banded armadillo (Dasypus novemcinctus), striped skunk (Mephitis mephitis), and northern raccoon (Procyon lotor). Together they accounted for approximately 85% (1198) of all roadkills. Mortality rate differed significantly between 2-
and 4-lane roads (8.39 versus 7.79 / 100 km). Kill rates were significantly higher on paved versus unpaved roads (8.60 versus
3.65 / 100 km), but did not depend on whether a road was divided. Roadkills were higher in spring than in fall (1.5×), winter
(1.4×), or summer (1.3×). The spring peak (in kills / 100 km) was driven chiefly by the armadillo (2.76 in spring/summer versus
0.73 in autumn/winter) and opossum (2.65 versus 1.47). By contrast, seasonality was dampened by a late winter/early spring
peak in skunk mortalities, for which 41% occurred in the 6-week period of mid-February through March. The raccoon did not
exhibit a strong seasonal pattern. Our data are consistent with dispersal patterns of these species. Our results underscore
the high rate of highway mortality in the southern plains, as well as differences in seasonality and road type that contribute
to mortality. Conservation and management efforts should focus on creating underpasses or using other means to reduce roadkill
rates. 相似文献
309.
Cuesta D Taboada A Calvo L Salgado JM 《Environmental pollution (Barking, Essex : 1987)》2008,152(2):394-402
We studied the short- and medium-term effects of experimental nitrogen fertilization (3 and 15 months after the treatment) on the arthropods of Calluna vulgaris heathlands in NW Spain. Three heathland sites were selected with two permanent plots per site: control and fertilized. Ammonium nitrate fertilizer (56 kg N ha(-1) yr(-1)) was applied monthly and insects were caught using pitfall traps. We found mainly species-level responses to nitrogen addition. Seven species (e.g. Lochmaea suturalis) showed a consistent trend (benefited or harmed) in both periods and were proposed as possible reliable indicators of the effects of nitrogen deposition in these ecosystems. We also found variable arthropod trophic-group responses: (a) herbivores (leaf beetles, true bugs) increased in abundance on a short-term scale; (b) predators (carabid beetles, true bugs) showed opposite and less clear responses in both periods. Further long-term studies are needed to determine the mechanisms underlying the observed arthropod responses. 相似文献
310.
The effect of nitrogen on biomass production, shoot elongation and relative density of the mosses Pleurozium schreberi, Hylocomium splendens and Dicranum polysetum was studied in a chamber experiment. Monocultures were exposed to 10 N levels ranging from 0.02 to 7.35 g N m−2 during a 90-day period. All the growth responses were unimodal, but the species showed differences in the shape parameters of the curves. Hylocomium and Pleurozium achieved optimum biomass production at a lower N level than Dicranum. Pleurozium had the highest biomass production per tissue N concentration. Tolerance to N was the widest in Dicranum, whereas Hylocomium had the narrowest tolerance. Dicranum retained N less efficiently from precipitation than the other two species, which explained its deviating response. All species translocated some N from parent to new shoots. The results emphasize that the individual responses of bryophytes to N should be known when species are used as bioindicators. 相似文献