Wetlands Knowledge Search Results
Resource
Authors
Claire Depardieu
Martin Girardin
Simon Nadeau
Patrick Lenz
Jean Bousquet
Nathalie Isabel
Drought intensity and frequency are increasing under global warming, with soil water availability now being a major factor limiting tree growth in circumboreal forests. Still, the adaptive capacity of...
Resource
Authors
Martin Girardin
Nathalie Isabel
Xiao Jing Guo
Manuel Lamothe
Isabelle Duchesne
Patrick Lenz
Assisted gene flow between populations has been proposed as an adaptive forest management strategy that could contribute to the sequestration of carbon. Here we provide an assessment of the mitigation...
Resource
Authors
Aneta Spyra
Anna Cieplok
Mariola Krodkiewska
Beaver-created ponds constitute an important element of small water retention in forest catchments and preserving biodiversity as breeding sites for vertebrates and invertebrates. In many areas, these...
Resource
Authors
Jordan Seider
Trevor Lantz
Txomin Hermosilla
Michael Wulder
Jonathan Wang
Temperature increases across the circumpolar north have driven rapid increases in vegetation productivity, often described as ‘greening’. These changes have been widespread, but spatial variation in...
Resource
Authors
Mariusz Gałka
Andrei-Cosmin Diaconu
Anna Cwanek
Lars Hedenäs
Klaus-Holger Knorr
Piotr Kołaczek
Edyta Łokas
Milena Obremska
Graeme T. Swindles
Angelica Feurdean
Rapidly increasing temperatures in high-latitude regions are causing major changes in wetland ecosystems. To assess the impact of concomitant hydroclimatic fluctuations, mineral deposition, and...
Resource
Authors
Jody Daniel
Rebecca C Rooney
The hydroperiod (i.e., the length of time ponded water is present) of prairie potholes is sensitive to climate change. Because snowmelt runoff is the largest contributor to ponded water amounts, a...
Resource
Authors
Lauren Thompson
McKenzie Kuhn
Johanna Winder
Lucas Braga
Ryan Hutchins
Andrew Tanentzap
Vincent St. Louis
David Olefeldt
Resource Date:
January
2023
Permafrost thaw may increase the production of neurotoxic methylmercury (MeHg) in northern peatlands, but the downstream delivery of MeHg is uncertain. We quantified total mercury (THg) and MeHg...
Resource
Authors
Jason Clark
Ken Tape
Latha Baskaran
Clayton Elder
Charles Miller
Kimberley Miner
Jonathan O'Donnell
Benjamin Jones
Beaver engineering in the Arctic tundra induces hydrologic and geomorphic changes that are favorable to methane (CH 4) production. Beaver-mediated methane emissions are driven by inundation of...
Resource
Authors
Wei-Yew Chang
Shuo Wang
Chris Gaston
Julie Cool
Henry An
Barb Thomas
This resource is available on an external database and may require a paid subscription to access it. It is included on the CCLM to support our goal of capturing and sharing the breadth of all...
Resource
Authors
Ashlee Dawn Mombourquette
Wetlands comprise 65% of the Athabasca Oil Sands Region (AOSR) surface mineable area and thus support diverse flora (approximately 400 species in Alberta). Due to increased anthropogenic land...
Resource
Authors
Ruth Errington
Ellen Macdonald
Natalka Melnycky
Jagtar Bhatti
Climate warming in the North could lead to lichen decline within critical woodland caribou habitat. We used repeat measurements of sixty-nine plots over ten years (2007–2008 and 2017–2018) to assess...
Resource
Authors
Michael Wulder
David Roy
Volker Radeloff
Thomas Loveland
Martha Anderson
David Johnson
Sean Healey
Zhe Zhu
Theodore Scambos
Nima Pahlevan
Matthew Hansen
Noel Gorelick
Christopher Crawford
Jeffrey Masek
Txomin Hermosilla
Joanne White
Alan Belward
Crystal Schaaf
Curtis Woodcock
Justin Huntington
Leo Lymburner
Patrick Hostert
Feng Gao
Alexei Lyapustin
Jean-Francois Pekel
Peter Strobl
Bruce Cook
Since 1972, the Landsat program has been continually monitoring the Earth, to now provide 50 years of digital, multispectral, medium spatial resolution observations. Over this time, Landsat data were...
Resource
Authors
Terrance Power
Robert Cameron
Thomas Neily
Brad Toms
Resource Date:
April
2018
This resource is available on an external database and may require a paid subscription to access it. It is included on the CCLM to support our goal of capturing and sharing the breadth of all...
Resource
Authors
Jian Zhang
Scott Nielsen
Jessica Stolar
Youhua Chen
Wilfried Thuiller
We found that 368 species (24%) may lose on average > 80% of their current suitable climates (habitats), while 539 species (35%) were projected to more than double their current suitable range
Resource
Authors
Julie Godbout
Marie-Claude Gros-Louis
Manuel Lamothe
Nathalie Isabel
The speed and magnitude of global change will have major impacts on riparian ecosystems, thereby leading to greater forest vulnerability. Assessing species’ adaptive capacities to provide relevant...
Resource
Authors
Katherine M. Standen
Jennifer L. Baltzer
Questions Rapid climate change in northern latitudes is expected to influence plant functional traits of the whole community (community-level traits) through species compositional changes and/or trait...
Resource
Authors
José Riofrío
Joanne White
Piotr Tompalski
Nicholas Coops
Michael Wulder
When combining multi-temporal airborne laser scanning (ALS) data sets, forest height growth assessments can be compromised due to variations in ALS acquisitions. Herein, we demonstrate the importance...
Resource
Authors
Camille Defrenne
Joanne Childs
Christopher Fernandez
Michael Taggart
Robert Nettles
Michael Allen
Paul Hanson
Collen Iversen
Resource Date:
December
2020
Mycorrhizal fungi enable plants to thrive in the cold, waterlogged, organic soils of boreal peatlands and, with saprotrophic fungi, largely contribute to the sequestration of atmospheric carbon in...
Resource
Authors
Dominique Boucher
Sylvie Gauthier
Nelson Thiffault
William Marchand
Martin Girardin
Climate change is projected to increase fire severity and frequency in the boreal forest, but it could also directly affect post-fire recruitment processes by impacting seed production, germination...
Resource
Authors
Sini-Selina Salko
Jussi Juola
Iuliia Burdun
Harri Vasander
Miina Rautiainen
Boreal peatlands store ~25 % of global soil organic carbon and host many endangered species; however, they face degradation due to climate change and anthropogenic drainage. In boreal peatlands...