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排序方式: 共有181条查询结果,搜索用时 31 毫秒
41.
An investigation of the impacts from elevated intertidal Pacific oyster culture in a New Zealand estuary showed enhanced sedimentation
beneath culture racks compared with other sites. Seabed elevation beneath racks was generally lower than between them, suggesting
that topographic patterns more likely result from a local effect of rack structures on hydrodynamic processes than from enhanced
deposition. Compared with control sites, seabed sediments within the farm had a greater silt/clay and organic content, and
a lower redox potential and shear strength. While a marked trend in macrofaunal species richness was not evident, species
composition and dominance patterns were consistent with a disturbance gradient, with farm effects not evident 35 m from the
perimeter of the racks. Of the environmental variables measured, sediment shear strength was most closely associated with
the distribution and density of macrofauna, suggesting that human-induced disturbance from farming operations may have contributed
to the biological patterns. To evaluate the taxonomic sufficiency needed to document impacts, aggregation to the family level
based on Linnean classification was compared with an aggregation scheme based on `general groups' identifiable with limited
taxonomic expertise. Compared with species-level analyses, spatial patterns of impact were equally discernible at both aggregation
levels used, provided density rather than presence/absence data were used. Once baseline conditions are established and the
efficacy of taxonomic aggregation demonstrated, a `general group' scheme provides an appropriate and increasingly relevant
tool for routine monitoring. 相似文献
42.
Henry P. Huntington Andrey Zagorsky Bjrn P. Kaltenborn Hyoung Chul Shin Jackie Dawson Maija Lukin Parnuna Egede Dahl Peiqing Guo David N. Thomas 《Ambio》2022,51(2):298
The Arctic Ocean is undergoing rapid change: sea ice is being lost, waters are warming, coastlines are eroding, species are moving into new areas, and more. This paper explores the many ways that a changing Arctic Ocean affects societies in the Arctic and around the world. In the Arctic, Indigenous Peoples are again seeing their food security threatened and cultural continuity in danger of disruption. Resource development is increasing as is interest in tourism and possibilities for trans-Arctic maritime trade, creating new opportunities and also new stresses. Beyond the Arctic, changes in sea ice affect mid-latitude weather, and Arctic economic opportunities may re-shape commodities and transportation markets. Rising interest in the Arctic is also raising geopolitical tensions about the region. What happens next depends in large part on the choices made within and beyond the Arctic concerning global climate change and industrial policies and Arctic ecosystems and cultures. 相似文献
43.
Giulia Castellani Gaëlle Veyssire Michael Karcher Julienne Stroeve S. Neil Banas A. Heather Bouman S. Andrew Brierley Stacey Connan Finlo Cottier Fabian Große Laura Hobbs Christian Katlein Bonnie Light David McKee Andrew Orkney Roland Proud Vibe Schourup-Kristensen 《Ambio》2022,51(2):307
The Arctic marine ecosystem is shaped by the seasonality of the solar cycle, spanning from 24-h light at the sea surface in summer to 24-h darkness in winter. The amount of light available for under-ice ecosystems is the result of different physical and biological processes that affect its path through atmosphere, snow, sea ice and water. In this article, we review the present state of knowledge of the abiotic (clouds, sea ice, snow, suspended matter) and biotic (sea ice algae and phytoplankton) controls on the underwater light field. We focus on how the available light affects the seasonal cycle of primary production (sympagic and pelagic) and discuss the sensitivity of ecosystems to changes in the light field based on model simulations. Lastly, we discuss predicted future changes in under-ice light as a consequence of climate change and their potential ecological implications, with the aim of providing a guide for future research. 相似文献
44.
Tina Sanders Claudia Fiencke Matthias Fuchs Charlotte Haugk Bennet Juhls Gesine Mollenhauer Olga Ogneva Paul Overduin Juri Palmtag Vasily Povazhniy Jens Strauss Robyn Tuerena Nadine Zell Kirstin Dhnke 《Ambio》2022,51(2):423
The Arctic is nutrient limited, particularly by nitrogen, and is impacted by anthropogenic global warming which occurs approximately twice as fast compared to the global average. Arctic warming intensifies thawing of permafrost-affected soils releasing their large organic nitrogen reservoir. This organic nitrogen reaches hydrological systems, is remineralized to reactive inorganic nitrogen, and is transported to the Arctic Ocean via large rivers. We estimate the load of nitrogen supplied from terrestrial sources into the Arctic Ocean by sampling in the Lena River and its Delta. We took water samples along one of the major deltaic channels in winter and summer in 2019 and sampling station in the central delta over a one-year cycle. Additionally, we investigate the potential release of reactive nitrogen, including nitrous oxide from soils in the Delta. We found that the Lena transported nitrogen as dissolved organic nitrogen to the coastal Arctic Ocean and that eroded soils are sources of reactive inorganic nitrogen such as ammonium and nitrate. The Lena and the Deltaic region apparently are considerable sources of nitrogen to nearshore coastal zone. The potential higher availability of inorganic nitrogen might be a source to enhance nitrous oxide emissions from terrestrial and aquatic sources to the atmosphere.Supplementary InformationThe online version contains supplementary material available at 10.1007/s13280-021-01665-0. 相似文献
45.
Hanna I. Campen Damian L. Arvalo-Martínez Yuri Artioli Ian J. Brown Vassilis Kitidis Gennadi Lessin Andrew P. Rees Hermann W. Bange 《Ambio》2022,51(2):411
Dimethyl sulphide (DMS) and carbon monoxide (CO) are climate-relevant trace gases that play key roles in the radiative budget of the Arctic atmosphere. Under global warming, Arctic sea ice retreats at an unprecedented rate, altering light penetration and biological communities, and potentially affect DMS and CO cycling in the Arctic Ocean. This could have socio-economic implications in and beyond the Arctic region. However, little is known about CO production pathways and emissions in this region and the future development of DMS and CO cycling. Here we summarize the current understanding and assess potential future changes of DMS and CO cycling in relation to changes in sea ice coverage, light penetration, bacterial and microalgal communities, pH and physical properties. We suggest that production of DMS and CO might increase with ice melting, increasing light availability and shifting phytoplankton community. Among others, policy measures should facilitate large-scale process studies, coordinated long term observations and modelling efforts to improve our current understanding of the cycling and emissions of DMS and CO in the Arctic Ocean and of global consequences. 相似文献
46.
Andrew P. Rees Hermann W. Bange Damian L. Arvalo-Martínez Yuri Artioli Dawn M. Ashby Ian Brown Hanna I. Campen Darren R. Clark Vassilis Kitidis Gennadi Lessin Glen A. Tarran Carol Turley 《Ambio》2022,51(2):398
Human activities are changing the Arctic environment at an unprecedented rate resulting in rapid warming, freshening, sea ice retreat and ocean acidification of the Arctic Ocean. Trace gases such as nitrous oxide (N2O) and methane (CH4) play important roles in both the atmospheric reactivity and radiative budget of the Arctic and thus have a high potential to influence the region’s climate. However, little is known about how these rapid physical and chemical changes will impact the emissions of major climate-relevant trace gases from the Arctic Ocean. The combined consequences of these stressors present a complex combination of environmental changes which might impact on trace gas production and their subsequent release to the Arctic atmosphere. Here we present our current understanding of nitrous oxide and methane cycling in the Arctic Ocean and its relevance for regional and global atmosphere and climate and offer our thoughts on how this might change over coming decades.Supplementary InformationThe online version contains supplementary material available at 10.1007/s13280-021-01633-8. 相似文献
47.
David W. Bressler Michael J. Paul Alison H. Purcell Michael T. Barbour Ed T. Rankin Vincent H. Resh 《Journal of the American Water Resources Association》2009,45(2):291-305
Abstract: This is the first in a series of three articles designed to establish empirically defined biological indicators and thresholds for impairment for urbanized catchments, and to describe a process by which the biological condition of waterbodies in urbanized catchments can be applied. This article describes alternative gradients of urbanization for assessing and selecting a nationally applicable biological index (article 2 – Purcell et al., this issue ) and defining the potential of biological communities within a gradient of cumulative stressors (article 3 – Paul et al. this issue ). Gradients were designed to represent the most prominent mosaic of stressors found in urban settings. A primary urban gradient was assembled based on readily obtained information of urbanization to include three broad‐scale parameters: percent urban land use/land cover, population density, and road density. This gradient was used as the standard by which alternative urban gradients, which included fine‐scale instream chemical and hydrologic parameters, were assessed. Five alternative gradients were developed to provide numerous environmental management options based on availability of data from water program resources. The urban gradients were developed with the intent that they be applied throughout the country; therefore, data from three different regions of the United States (Mid‐Atlantic, Midwest, and Pacific Coast) were used to validate the urban gradient model. Our study showed that a relatively straightforward stressor gradient consisting of human population density, road density, and urban land use is useful in providing a framework for developing relevant biological indicators and evaluating the potential of biological communities as a basis for assessing attainment of designated aquatic life use. 相似文献
48.
重庆近48年来高温天气气候特征及其环流形势 总被引:5,自引:0,他引:5
利用重庆23个气象观测站1960~2007年逐日最高气温观测资料,NCEP/NCAR再分析数据集中的高度场格点资料,运用EOF、REOF等方法,探讨重庆高温日数的空间分布特征,并对多高温天气的2006年和少高温天气年7~8月的环流特征进行了分析。结果表明:重庆高温天气主要出现在7~8月份,高温日数具有显著的年代际和区域性差异,20世纪70年代最多,80年代最少,沿长江、乌江为高温多发带。一致性异常分布是重庆高温日数的最主要空间模态;高温日数的异常空间分布可分为以下3个关键区:重庆中西部、重庆东南部、重庆东北部。乌拉尔山至鄂霍次克海地区阻塞高压偏弱,东亚大槽偏浅;100 hPa 高空南亚高压偏东,500 hPa 高空副高偏北偏西,形成一种上高下高的叠加形势是重庆7~8月出现多高温天气的主要原因。 相似文献
49.
Anthropogenic radionuclides in seawater have been used as transient tracers of processes in the marine environment. Especially, plutonium in seawater is considered to be a valuable tracer of biogeochemical processes due to its particle-reactive properties. However, its behavior in the ocean is also affected by physical processes such as advection, mixing and diffusion. Here we introduce Pu/137Cs ratio as a proxy of biogeochemical processes and discuss its trends in the water column of the North Pacific Ocean. We observed that the 239,240Pu/137Cs ratio in seawater exponentially increased with increasing depth (depth range: 100–1000 m). This finding suggests that the profiles of the 239,240Pu/137Cs ratios in shallower waters directly reflect biogeochemical processes in the water column. A half-regeneration depth deduced from the curve fitting the observed data, showed latitudinal and longitudinal distributions, also related to biogeochemical processes in the water column. 相似文献
50.
Tensions between amenity- and timber-based economies in the U.S. and Canadian Pacific Northwest motivated a study of scenic beauty inside mature forests and timber harvests. A diverse sample of regional forests, measures of forest structure, and large, representative samples of photographs and public judges were employed to measure scenic beauty inside un-harvested mature and old-growth forests, and timber harvests. The latter varied systematically in down wood levels and retention level and pattern. Scenic beauty tended to be optimized at a basal area of 110–155 m3/ha and/or 700–900 trees/ha. Older forests and those with larger trees were perceived to be more beautiful. In harvests, greater retention levels, less down wood, and dispersed rather than aggregated retention patterns contributed to aesthetic improvements. Green-tree retention harvests offer considerable potential gains in perceived scenic beauty compared to perceived very ugly clearcuts, particularly at higher retention levels. These gains are more reliable from dispersed retention patterns. The silvicultural parameters studied change strength in affecting scenic beauty with changes in retention level. These interactions are explored in relation to a range of scenic quality objectives as an aid to planners, visual impact analysts, and silviculturists. 相似文献