scholarly article | Q13442814 |
P356 | DOI | 10.2980/18-3-3453 |
P50 | author | Joël Bêty | Q3187371 |
Dominique Berteaux | Q51789577 | ||
Pierre Legagneux | Q58225946 | ||
Arnaud Tarroux | Q60144139 | ||
Gilles Gauthier | Q69616954 | ||
Jean-François Therrien | Q94461662 | ||
Laura McKinnon | Q103728156 | ||
P2093 | author name string | Marie-Christine Cadieux | |
P2860 | cites work | Recent warming reverses long-term arctic cooling | Q28257383 |
Exploitation Ecosystems in Gradients of Primary Productivity | Q29039487 | ||
Dynamics of recent climate change in the Arctic | Q30717375 | ||
Patterns of predation in a diverse predator-prey system | Q30736312 | ||
Temporal variability in arctic fox diet as reflected in stable-carbon isotopes; the importance of sea ice. | Q30771438 | ||
Impacts of warming and fertilization on nitrogen-fixing microbial communities in the Canadian High Arctic. | Q31023566 | ||
Climate change. Increasing shrub abundance in the Arctic | Q31921457 | ||
Linking climate change to lemming cycles | Q33382985 | ||
Ecological dynamics across the Arctic associated with recent climate change | Q33501895 | ||
Increased plant biomass in a High Arctic heath community from 1981 to 2008. | Q33514701 | ||
Determinants of lemming outbreaks | Q34549856 | ||
Herbivores, resources and risks: alternating regulation along primary environmental gradients in savannas | Q37600467 | ||
Marine subsidies have multiple effects on coastal food webs. | Q39110202 | ||
Prolonging the arctic pulse: long-term exploitation of cached eggs by arctic foxes when lemmings are scarce. | Q40181160 | ||
Collapsing population cycles | Q42030799 | ||
Cyclic Dynamics in a Simple Vertebrate Predator-Prey Community | Q47410504 | ||
Trophic interactions in a high arctic snow goose colony. | Q51165777 | ||
Allochthonous inputs: integrating population changes and food-web dynamics. | Q51192839 | ||
Annual and seasonal changes in diets of martens: evidence from stable isotope analysis. | Q51334494 | ||
Allochthonous subsidy of periodical cicadas affects the dynamics and stability of pond communities. | Q51701101 | ||
Agricultural food subsidies, migratory connectivity and large-scale disturbance in arctic coastal systems: a case study. | Q53138547 | ||
Birds of Bylot Island and Adjacent Baffin Island, Northwest Territories, Canada, 1979 To 1997 | Q56017112 | ||
Surviving on cached foods — the energetics of egg-caching by arctic foxes | Q56038551 | ||
The Bering Sea Green Belt: shelf-edge processes and ecosystem production | Q56093814 | ||
TOWARD AN INTEGRATION OF LANDSCAPE AND FOOD WEB ECOLOGY:The Dynamics of Spatially Subsidized Food Webs | Q56136795 | ||
Predators indirectly protect tundra plants by reducing herbivore abundance | Q57208163 | ||
Northern nomads: ability for extensive movements in adult arctic foxes | Q57235665 | ||
Demography of two lemming species on Bylot Island, Nunavut, Canada | Q57235668 | ||
Cyclic dynamics of sympatric lemming populations on Bylot Island, Nunavut, Canada | Q57235669 | ||
Hoarding of pulsed resources: Temporal variations in egg-caching by arctic fox | Q57235670 | ||
Finding the right home: distribution of food resources and terrain characteristics influence selection of denning sites and reproductive dens in arctic foxes | Q57235671 | ||
Cache and carry: hoarding behavior of arctic fox | Q57235672 | ||
Terrestrial trophic dynamics in the Canadian Arctic | Q57235683 | ||
Interactions between land use, habitat use, and population increase in greater snow geese: what are the consequences for natural wetlands? | Q57721431 | ||
Effects of Summer Grazing by Caribou on Composition and Productivity of Vegetation: Community and Landscape Level | Q58641915 | ||
P433 | issue | 3 | |
P921 | main subject | climate change | Q125928 |
tundra | Q43262 | ||
Bylot Island | Q645180 | ||
food web | Q1775153 | ||
P304 | page(s) | 223-235 | |
P577 | publication date | 2011-09-01 | |
P1433 | published in | Écoscience | Q19597053 |
P1476 | title | The tundra food web of Bylot Island in a changing climate and the role of exchanges between ecosystems | |
P478 | volume | 18 |
Q39117347 | Benefiting from a migratory prey: spatio-temporal patterns in allochthonous subsidization of an Arctic predator |
Q31048719 | Climate change and the ecology and evolution of Arctic vertebrates |
Q39119522 | Disentangling trophic relationships in a High Arctic tundra ecosystem through food web modeling |
Q57235633 | Does lemming winter grazing impact vegetation in the Canadian Arctic? |
Q34460509 | Highly overlapping winter diet in two sympatric lemming species revealed by DNA metabarcoding |
Q30890472 | How will the greening of the Arctic affect an important prey species and disturbance agent? Vegetation effects on arctic ground squirrels |
Q30653406 | Indirect interactions in the High Arctic. |
Q47141794 | Linking songbird nest predation to seedling density: Sugar maple masting as a resource pulse in a forest food web. |
Q30541744 | Long-term monitoring at multiple trophic levels suggests heterogeneity in responses to climate change in the Canadian Arctic tundra |
Q61044024 | Major Issues in Simulating Some Arctic Snowpack Properties Using Current Detailed Snow Physics Models: Consequences for the Thermal Regime and Water Budget of Permafrost |
Q39126525 | Predation pressure by avian predators suggests summer limitation of small-mammal populations in the Canadian Arctic |
Q57235642 | Recent climate-related terrestrial biodiversity research in Canada's Arctic national parks: review, summary, and management implications |
Q46894046 | Sources of variation in small rodent trophic niche: new insights from DNA metabarcoding and stable isotope analysis |
Q39120918 | The effect of snow cover on lemming population cycles in the Canadian high Arctic |
Q34738094 | Trans-equatorial migration routes, staging sites and wintering areas of a high-Arctic avian predator: the long-tailed Skua (Stercorarius longicaudus) |
Q30984534 | Trophic mismatch and its effects on the growth of young in an Arctic herbivore |
Q57738443 | What Can Stable Isotope Analysis of Top Predator Tissues Contribute to Monitoring of Tundra Ecosystems? |
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