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Multi-decadal changes in Tundra environments and ecosystems : the International Polar Year - back to the future project (2011)

Callghan, Terry V. ; Tweedie, Craig E.

Stockholm : Royal Swedish Acad. of Sciences

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Materialart: Buch

Seiten: S. 555 - 716 , Ill., graph. Darst

Serie: Ambio 40.2011,6

Sprache: Englisch

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(Table 1) Active-layer thickness as measured by the Biocomplexity Experiment (BE) for the flooded, drained and control sections in Barrow, Alaska (2010)

Shiklomanov, Nikolay I ; Streletskiy, Dmitry A ; Nelson, Frederick E ; [weitere]

PANGAEA

In: Supplement to: Shiklomanov, Nikolay I; Streletskiy, Dmitry A; Nelson, Frederick E; Hollister, Robert D; Romanovsky, Vladimir E; Tweedie, Craig E; Bockheim, James G; Brown, Jerry (2010): Decadal variations of active-layer thickness in moisture-controlled landscapes, Barrow, Alaska. Journal of Geophysical Research, 115, G00I04, https://doi.org/10.1029/2009JG001248

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Publikationsdatum: 2023-12-13

Beschreibung: A continuous time series of annual soil thaw records, extending from 1994 to 2009, is available for comparison with the records of thaw obtained from the Biocomplexity Experiment (BE) for the period 2006-2009. Discontinuous records of thaw at Barrow from wet tundra sites date back to the 1960s. Comparisons between the longer records with the BE observations reveal strong similarities. Records of permafrost temperature, reflecting changes in the annual surface energy exchange, are available from the 1950s for comparison with results from measurement programs begun in 2002. The long-term systematic geocryological investigations at Barrow indicate an increase in permafrost temperature, especially during the last several years. The increase in near-surface permafrost temperature is most pronounced in winter. Marked trends are not apparent in the active-layer record, although subsidence measurements on the North Slope indicate that penetration into the ice-rich layer at the top of permafrost has occurred over the past decade. Active-layer thickness values from the 1960s are generally higher than those from the 1990s, and are very similar to those of the 2000s. Analysis of spatial active-layer observations at representative locations demonstrates significant variations in active-layer thickness between different landscape types, reflecting the influence of vegetation, substrate, microtopography, and, especially, soil moisture. Landscape-specific differences exist in the response of active-layer thickness to climatic forcing. These differences are attributable to the existence of localized controls related to combinations of surface and subsurface characteristics. The geocryological records at Barrow illustrate the importance and effectiveness of sustained, well organized monitoring efforts to document long-term trends.

Schlagwort(e): Active layer depth; Area/locality; Barrow_Utqiagvik; Barrow, Alaska, USA; DATE/TIME; International Polar Year (2007-2008); IPY; MULT; Multiple investigations

Materialart: Dataset

Format: text/tab-separated-values, 37 data points

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(Table 1) Climate characteristics of the four North American Tundra Experiment (ITEX) sites (2007)

Oberbauer, Steven F ; Tweedie, Craig E ; Welker, Jeff M ; [weitere]

PANGAEA

In: Supplement to: Oberbauer, Steven F; Tweedie, Craig E; Welker, Jeff M; Fahnestock, Jace T; Henry, Gregory HR; Webber, Patrick J; Hollister, Robert D; Walker, Marilyn D; Kuchy, Andrea; Elmore, Elizabeth; Starr, Gregory (2007): Tundra CO2 fluxes in response to experimental warming across latitudinal and moisture gradients. Ecological Monographs, 77(2), 221-238, https://doi.org/10.1890/06-0649

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Publikationsdatum: 2024-02-03

Beschreibung: Climate warming is expected to differentially affect CO2 exchange of the diverse ecosystems in the Arctic. Quantifying responses of CO2 exchange to warming in these ecosystems will require coordinated experimentation using standard temperature manipulations and measurements. Here, we used the International Tundra Experiment (ITEX) standard warming treatment to determine CO2 flux responses to growing-season warming for ecosystems spanning natural temperature and moisture ranges across the Arctic biome. We used the four North American Arctic ITEX sites (Toolik Lake, Atqasuk, and Barrow [USA] and Alexandra Fiord [Canada]) that span 10° of latitude. At each site, we investigated the CO2 responses to warming in both dry and wet or moist ecosystems. Net ecosystem CO2 exchange (NEE), ecosystem respiration (ER), and gross ecosystem photosynthesis (GEP) were assessed using chamber techniques conducted over 24-h periods sampled regularly throughout the summers of two years at all sites. At Toolik Lake, warming increased net CO2 losses in both moist and dry ecosystems. In contrast, at Atqasuk and Barrow, warming increased net CO2 uptake in wet ecosystems but increased losses from dry ecosystems. At Alexandra Fiord, warming improved net carbon uptake in the moist ecosystem in both years, but in the wet and dry ecosystems uptake increased in one year and decreased the other. Warming generally increased ER, with the largest increases in dry ecosystems. In wet ecosystems, high soil moisture limited increases in respiration relative to increases in photosynthesis. Warming generally increased GEP, with the notable exception of the Toolik Lake moist ecosystem, where warming unexpectedly decreased GEP 〉25%. Overall, the respiration response determined the effect of warming on ecosystem CO2 balance. Our results provide the first multiple-site comparison of arctic tundra CO2 flux responses to standard warming treatments across a large climate gradient. These results indicate that (1) dry tundra may be initially the most responsive ecosystems to climate warming by virtue of strong increases in ER, (2) moist and wet tundra responses are dampened by higher water tables and soil water contents, and (3) both GEP and ER are responsive to climate warming, but the magnitudes and directions are ecosystem-dependent.

Schlagwort(e): Alaska, USA; Alexandra Fiord; Area/locality; Atqasuk; Barrow; Barrow, Alaska, USA; Comment; Degree days, thawing; ELEVATION; Ellesmere Island, Canadian Arctic Archipelago; Event label; International Polar Year (2007-2008); IPY; ITEX_AF; ITEX_AT; ITEX_BA; ITEX_TL; Latitude of event; Longitude of event; Monitoring station; MONS; Precipitation, sum; Temperature, air, annual mean; Temperature, air, monthly mean; Toolik Lake; Toolik Lake, Alaska

Materialart: Dataset

Format: text/tab-separated-values, 20 data points

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(Table 1) Species richness and diversity of tundra plants in herbivore exclosure and control plots near Barrow, Alaska (2010)

Johnson, David R ; Lara, Mark J ; Shaver, Gauis R ; [weitere]

PANGAEA

In: Supplement to: Johnson, David R; Lara, Mark J; Shaver, Gauis R; Batzli, Go; Shaw, J D; Tweedie, Craig E (2011): Exclusion of brown lemmings reduces vascular plant cover and biomass in Arctic coastal tundra: resampling of a 50 + year herbivore exclosure experiment near Barrow, Alaska. Environmental Research Letters, 6(4), 045507, https://doi.org/10.1088/1748-9326/6/4/045507

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Publikationsdatum: 2023-12-13

Beschreibung: To determine the role lemmings play in structuring plant communities and their contribution to the 'greening of the Arctic', we measured plant cover and biomass in 50 + year old lemming exclosures and control plots in the coastal tundra near Barrow, Alaska. The response of plant functional types to herbivore exclusion varied among land cover types. In general, the abundance of lichens and bryophytes increased with the exclusion of lemmings, whereas graminoids decreased, although the magnitude of these responses varied among land cover types. These results suggest that sustained lemming activity promotes a higher biomass of vascular plant functional types than would be expected without their presence and highlights the importance of considering herbivory when interpreting patterns of greening in the Arctic. In light of the rapid environmental change ongoing in the Arctic and the potential regional to global implications of this change, further exploration regarding the long-term influence of arvicoline rodents on ecosystem function (e.g. carbon and energy balance) should be considered a research priority.

Schlagwort(e): Barrow_plain; Barrow, Alaska, USA; Biological sample; BIOS; DATE/TIME; Environment; Experimental treatment; International Polar Year (2007-2008); IPY; Shannon Diversity Index; Species richness; Standard error

Materialart: Dataset

Format: text/tab-separated-values, 36 data points

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The response of Alaskan arctic tundra to experimental warming: differences between short- and long-term responses (2005)

Hollister, Robert D. ; Webber, Patrick J. ; Tweedie, Craig E.

Oxford, UK : Blackwell Science Ltd

Global change biology 11 (2005), S. 0

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ISSN: 1365-2486

Quelle: Blackwell Publishing Journal Backfiles 1879-2005

Thema: Biologie , Energietechnik , Geographie

Notizen: Global climate models predict continued rapid warming for most of the Arctic throughout the next century. To further understand the response of arctic tundra to climate warming, four sites in northern Alaska were warmed for five to seven consecutive growing seasons using open-top chambers. Sites were located in dry heath and wet meadow communities near Barrow (71°18′N, 156°40′W) and Atqasuk (70°29′N, 157°25′W). Change in plant community composition was measured using a point frame method. During the period of observation, species richness declined in control plots by up to 2.7 species plot−1. Responses to warming varied by site but similar trends included increased canopy height (−0.1 to 2.3 cm) and relative cover of standing dead plant matter (1.5–6.0%) and graminoids (1.8–5.8%) and decreased species diversity (0.1–1.7 species plot−1) and relative cover of lichens (0.2–9.1%) and bryophytes (1.4–4.6%) (parentheses enclose the range of average values for the sites). The response to warming was separated into an initial short-term response assessed after two growing seasons of warming and a secondary longer-term response assessed after an additional three to five growing seasons of warming. The initial responses to warming were similar in the four sites, while the secondary responses varied by site. The response to warming was greater at Barrow than Atqasuk because of a greater initial response at Barrow. However, the long-term response to warming was projected to be greater at Atqasuk because of a greater secondary response at Atqasuk. These findings show that predictions of vegetation change due to climate warming based on manipulative experiments will differ depending on both the duration and plant community on which the study focuses.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1111/j.1365-2486.2005.00926.x

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Subantarctic Macquarie Island – a model ecosystem for studying animal-derived nitrogen sources using 15N natural abundance (1998)

Erskine, Peter D. ; Bergstrom, Dana M. ; Schmidt, Susanne ; [weitere]

Springer

Oecologia 117 (1998), S. 187-193

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ISSN: 1432-1939

Schlagwort(e): Key words Animal-derived nitrogen ; Plant nitrogen sources ; Subantarctic ; Aerial nitrogen deposition ; 15N natural abundance

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Plants collected from diverse sites on subantarctic Macquarie Island varied by up to 30‰ in their leaf δ15N values. 15N natural abundance of plants, soils, animal excrement and atmospheric ammonia suggest that the majority of nitrogen utilised by plants growing in the vicinity of animal colonies or burrows is animal-derived. Plants growing near scavengers and animal higher in the food chain had highly enriched δ15N values (mean = 12.9‰), reflecting the highly enriched signature of these animals' excrement, while plants growing near nesting penguins and albatross, which have an intermediate food chain position, had less enriched δ15N values (〉6‰). Vegetation in areas affected by rabbits had lower δ15N values (mean = 1.2‰), while the highly depleted δ15N values (below −5‰) of plants at upland plateau sites inland of penguin colonies, suggested that a portion of their nitrogen is derived from ammonia (mean 15N =−10‰) lost during the degradation of penguin guano. Vegetation in a remote area had δ15N values near −2‰. These results contrast with arctic and subarctic studies that attribute large variations in plant 15N values to nitrogen partitioning in nitrogen-limited environments. Here, plant 15N reflects the 15N of the likely nitrogen sources utilised by plants.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/s004420050647

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Multi-Decadal Changes in Tundra Environments and Ecosystems: Synthesis of the International Polar Year-Back to the Future Project (IPY-BTF) (2011)

Callaghan, Terry V. ; Tweedie, Craig E. ; Åkerman, Jonas ; [weitere]

Springer

In: AMBIO, 40 (6). pp. 705-716.

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Publikationsdatum: 2014-05-07

Beschreibung: Understanding the responses of tundra systems to global change has global implications. Most tundra regions lack sustained environmental monitoring and one of the only ways to document multi-decadal change is to resample historic research sites. The International Polar Year (IPY) provided a unique opportunity for such research through the Back to the Future (BTF) project (IPY project #512). This article synthesizes the results from 13 papers within this Ambio Special Issue. Abiotic changes include glacial recession in the Altai Mountains, Russia; increased snow depth and hardness, permafrost warming, and increased growing season length in sub-arctic Sweden; drying of ponds in Greenland; increased nutrient availability in Alaskan tundra ponds, and warming at most locations studied. Biotic changes ranged from relatively minor plant community change at two sites in Greenland to moderate change in the Yukon, and to dramatic increases in shrub and tree density on Herschel Island, and in sub-arctic Sweden. The population of geese tripled at one site in northeast Greenland where biomass in non-grazed plots doubled. A model parameterized using results from a BTF study forecasts substantial declines in all snowbeds and increases in shrub tundra on Niwot Ridge, Colorado over the next century. In general, results support and provide improved capacities for validating experimental manipulation, remote sensing, and modeling studies

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1007/s13280-011-0179-8

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Plant community responses to experimental warming across the tundra biome (2006)

Walker, Marilyn D. ; Wahren, C. Henrik ; Hollister, Robert D. ; [weitere]

National Academy of Sciences of the USA

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Publikationsdatum: 2022-05-25

Beschreibung: Author Posting. © National Academy of Sciences, 2006. This article is posted here by permission of National Academy of Sciences for personal use, not for redistribution. The definitive version was published in Proceedings of the National Academy of Sciences of the United States of America 103 (2006): 1342-1346, doi:10.1073/pnas.0503198103.

Beschreibung: Recent observations of changes in some tundra ecosystems appear to be responses to a warming climate. Several experimental studies have shown that tundra plants and ecosystems can respond strongly to environmental change, including warming; however, most studies were limited to a single location and were of short duration and based on a variety of experimental designs. In addition, comparisons among studies are difficult because a variety of techniques have been used to achieve experimental warming and different measurements have been used to assess responses. We used metaanalysis on plant community measurements from standardized warming experiments at 11 locations across the tundra biome involved in the International Tundra Experiment. The passive warming treatment increased plant-level air temperature by 1-3°C, which is in the range of predicted and observed warming for tundra regions. Responses were rapid and detected in whole plant communities after only two growing seasons. Overall, warming increased height and cover of deciduous shrubs and graminoids, decreased cover of mosses and lichens, and decreased species diversity and evenness. These results predict that warming will cause a decline in biodiversity across a wide variety of tundra, at least in the short term. They also provide rigorous experimental evidence that recently observed increases in shrub cover in many tundra regions are in response to climate warming. These changes have important implications for processes and interactions within tundra ecosystems and between tundra and the atmosphere.

Beschreibung: The projects represented here were supported by many sources, including the National Science Foundation, Swedish Natural Science Research Council, United Kingdom Natural Environment Research Council, Natural Sciences and Engineering Research Council of Canada, Research Council of Norway, Icelandic Centre for Research, and the Academy of Finland. Coordination of activities was made possible with support from the Bonanza Creek Long-Term Ecological Research site.

Schlagwort(e): Arctic and alpine ecosystems ; Biodiversity ; Climate change ; Vegetation change

Repository-Name: Woods Hole Open Access Server

Materialart: Article

Format: 353582 bytes

Format: application/pdf

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Polygonal tundra geomorphological change in response to warming alters future CO2 and CH4 flux on the Barrow Peninsula (2014)

Lara, Mark J. ; McGuire, A. David ; Euskirchen, Eugenie S. ; [weitere]

WILEY-BLACKWELL PUBLISHING

In: EPIC3Global Change Biology, WILEY-BLACKWELL PUBLISHING, ISSN: 1354-1013

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Publikationsdatum: 2014-12-16

Beschreibung: The landscape of the Barrow Peninsula in northern Alaska is thought to have formed over centuries to millennia, and is now dominated by ice-wedge polygonal tundra that spans drained thaw-lake basins and interstitial tundra. In nearby tundra regions, studies have identified a rapid increase in thermokarst formation (i.e., pits) over recent decades in response to climate warming, facilitating changes in polygonal tundra geomorphology. We assessed the future impact of 100 years of tundra geomorphic change on peak growing season carbon exchange in response to: (i) landscape succession associated with the thaw-lake cycle; and (ii) low, moderate, and extreme scenarios of thermokarst pit formation (10%, 30%, and 50%) reported for Alaskan arctic tundra sites. We developed a 30 × 30 m resolution tundra geomorphology map (overall accuracy:75%; Kappa:0.69) for our ~1800 km² study area composed of ten classes; drained slope, high center polygon, flat-center polygon, low center polygon, coalescent low center polygon, polygon trough, meadow, ponds, rivers, and lakes, to determine their spatial distribution across the Barrow Peninsula. Land-atmosphere CO2 and CH4 flux data were collected for the summers of 2006–2010 at eighty-two sites near Barrow, across the mapped classes. The developed geomorphic map was used for the regional assessment of carbon flux. Results indicate (i) at present during peak growing season on the Barrow Peninsula, CO2 uptake occurs at -902.3 106gC-CO2 day−1 (uncertainty using 95% CI is between −438.3 and −1366 106gC-CO2 day−1) and CH4 flux at 28.9 106gC-CH4 day−1(uncertainty using 95% CI is between 12.9 and 44.9 106gC-CH4 day−1), (ii) one century of future landscape change associated with the thaw-lake cycle only slightly alter CO2 and CH4 exchange, while (iii) moderate increases in thermokarst pits would strengthen both CO2 uptake (−166.9 106gC-CO2 day−1) and CH4 flux (2.8 106gC-CH4 day−1) with geomorphic change from low to high center polygons, cumulatively resulting in an estimated negative feedback to warming during peak growing season.

Repository-Name: EPIC Alfred Wegener Institut

Materialart: Article , isiRev

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An emerging international network focused on permafrost coastal systems in transition (2019)

Jones, Benjamin M. ; Tweedie, Craig E. ; Xiao, Ming ; [weitere]

AGU

In: EPIC3AGU Fall Meeting 2019, San Francisco, USA, 2019-12-09-2019-12-13San Francisco, USA, AGU

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Publikationsdatum: 2020-12-04

Beschreibung: Perennially frozen ground and sea ice are key constituents of permafrost coastal systems, and their presence is the primary difference between temperate and high-latitude coastal processes. These systems are some of the most rapidly changing landscapes on Earth and, in the Arctic, are representative of the challenges being faced at the intersection between natural and anthropogenic systems. Permafrost thaw, in combination with increasing sea level and decreasing sea-ice cover, exposes arctic coastal and nearshore areas to rapid environmental and social changes. Based on decadal timescales, observations in the Arctic indicate an increase in permafrost coastal bluff erosion and storm surge flooding of low-lying ice-rich permafrost terrain. However, circum-arctic observations remain limited and the factors responsible for the apparent increase in arctic coastal dynamics are poorly constrained. A better understanding of permafrost coastal systems and how they are responding to changes in the Arctic is important since a high proportion of Arctic residents live on or near coastlines, and many derive their livelihood from terrestrial and nearshore marine resources. An expanding industrial, scientific, and commercial presence in the Arctic Ocean will also require advanced knowledge about permafrost coastlines as terrestrial access points. Since the issues involved span political, cultural, geographical, and disciplinary borders, an international network focused on permafrost coastal systems in transition is needed. An integrative network focused on permafrost coastal systems is required to realize and address the scale and complexity of the processes, dynamics, and responses of this system to physical, ecological, and social change. A primary focus of such an effort would be guided by the fact that the issues and impacts associated with permafrost coastal systems in transition are far greater than any single institution or discipline is capable of addressing alone. Future permafrost coastal system dynamics will challenge conventional wisdom as the system enters a new state impacting human decision making and adaptation planning, cultural heritage resources and ecosystems, and likely resulting in unforeseen challenges across the Arctic.

Repository-Name: EPIC Alfred Wegener Institut

Materialart: Conference , notRev

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