Tim Rademacher

Université du Québec en Outaouais
Candidat Postdoctoral fellow

superviseur(e): Jérôme Dupras
Élise Filotas
Sylvain Delagrange, Université du Québec en Outaouais
Début: 2021-07-01
Fin: 2023-03-31

Projet

L'adaptation des érablières aux changements globaux
Les érablières constituent un écosystème d'importance culturelle qui peut générer des retombées économiques en même temps que protéger des stocks de carbone et la biodiversité locale. Pourtant, les érablières et surtout l'exploitation acéricole est délicatement dépendent de la météo. En conséquent, les changements climatiques vont affecter ce écosystème emblématique du Québec. Notre projet vise a estimer les services écosystémiques rendus par les érablières et comment ils vont changer dans en environnement en mutation. Dans un premier étape, nous utilisons la modélisation pour comprendre les influences climatiques et météorologiques sur la croissance et la coulée d'eau dans les érablières. Dans une deuxième étape, ces modèles vont servir à assister l'adaptation des érablières aux changements climatiques en assurant une gestion durable.

Mots-clés

Maple, trees, adaptation, climate change, ecosystem services, Growth

Publications

1- The Wood Image Analysis and Dataset (WIAD): Open‐access visual analysis tools to advance the ecological data revolution
Rademacher, Tim, Bijan Seyednasrollah, David Basler, Jian Cheng, Tessa Mandra, Elise Miller, Zuid Lin, David A. Orwig, Neil Pederson, Hanspeter Pfister, Donglai Wei, Li Yao, Andrew D. Richardson
2021 Methods in Ecology and Evolution

2- Higher plasticity of water uptake in spruce than larch in an alpine habitat of North-Central China
Zhang, Yiping, Junliang Xu, Yuan Jiang, Tessa Mandra, Tim T. Rademacher, Feng Xue, Manyu Dong, Neil Pederson
2021 Agricultural and Forest Meteorology

3- Dryness decreases average growth rate and increases drought sensitivity of Mongolia oak trees in North China
Zhang, Xianliang, Pengcheng Lv, Chen Xu, Xuanrui Huang, Tim Rademacher
2021 Agricultural and Forest Meteorology

4- Manipulating phloem transport affects wood formation but not local nonstructural carbon reserves in an evergreen conifer
Rademacher, Tim, Patrick Fonti, James M. LeMoine, Marina V. Fonti, David Basler, Yizhao Chen, Andrew D. Friend, Bijan Seyednasrollah, Annemarie H. Eckes‐Shephard, Andrew D. Richardson
2021 Plant, Cell & Environment

5- Steps to diversify priority‐setting research in conservation: reflections on de Gracia 2021
Jucker, Tommaso, Tatsuya Amano, Alexandra Bell, Emma E. Garnett, Jan Laurens Geffert, Miriam K. Guth, Andrew Hacket‐Pain, Sarah H. Luke, Hannah S. Mumby, Matheus Nunes, Tim Rademacher, David C. Rose, Judith Schleicher, Benno I. Simmons, Aiora Zabala, Nibedita Mukherjee
2021 Conservation Biology

6- Species Richness and Carbon Footprints of Vegetable Oils: Can High Yields Outweigh Palm Oil’s Environmental Impact?
Beyer, Robert, Tim Rademacher
2021 Sustainability

7- High risk of growth cessation of planted larch under extreme drought
Zhang, Xianliang, Xue Li, Rubén D Manzanedo, Loïc D’Orangeville, Pengcheng Lv, Chunkai Wang, Chen Xu, Meiting Hou, Xuanrui Huang, Tim Rademacher
2021 Environmental Research Letters

8- RETRACTED ARTICLE: Evidence of unprecedented rise in growth synchrony from global tree ring records
Manzanedo, Rubén Delgado, Janneke HilleRisLambers, Tim Tito Rademacher, Neil Pederson
2020 Nature Ecology & Evolution

9- Understanding the uncertainty in global forest carbon turnover
Pugh, Thomas A. M., Tim Rademacher, Sarah L. Shafer, Jörg Steinkamp, Jonathan Barichivich, Brian Beckage, Vanessa Haverd, Anna Harper, Jens Heinke, Kazuya Nishina, Anja Rammig, Hisashi Sato, Almut Arneth, Stijn Hantson, Thomas Hickler, Markus Kautz, Benjamin Quesada, Benjamin Smith, Kirsten Thonicke
2020 Biogeosciences

10- Using Direct Phloem Transport Manipulation to Advance Understanding of Carbon Dynamics in Forest Trees
Rademacher, Tim T., David Basler, Annemarie H. Eckes-Shephard, Patrick Fonti, Andrew D. Friend, Jim Le Moine, Andrew D. Richardson
2019 Frontiers in Forests and Global Change

11- Flux Puppy – An open-source software application and portable system design for low-cost manual measurements of CO2 and H2O fluxes
Carbone, Mariah S., Bijan Seyednasrollah, Tim T. Rademacher, David Basler, James M. Le Moine, Samuel Beals, James Beasley, Andrew Greene, Joseph Kelroy, Andrew D. Richardson
2019 Agricultural and Forest Meteorology

12- Snowmelt and early to mid‐growing season water availability augment tree growth during rapid warming in southern Asian boreal forests
Zhang, Xianliang, Rubén D. Manzanedo, Loïc D'Orangeville, Tim T. Rademacher, Junxia Li, Xueping Bai, Meiting Hou, Zhenju Chen, Fenghua Zou, Fangbo Song, Neil Pederson
2019 Global Change Biology

13- On the need to consider wood formation processes in global vegetation models and a suggested approach
Friend, Andrew D., Annemarie H. Eckes-Shephard, Patrick Fonti, Tim T. Rademacher, Cyrille B. K. Rathgeber, Andrew D. Richardson, Rachael H. Turton
2019 Annals of Forest Science

14- Ten-year assessment of the 100 priority questions for global biodiversity conservation
Jucker, Tommaso, Bonnie Wintle, Gorm Shackelford, Pierre Bocquillon, Jan Laurens Geffert, Tim Kasoar, Eszter Kovacs, Hannah S. Mumby, Chloé Orland, Judith Schleicher, Eleanor R. Tew, Aiora Zabala, Tatsuya Amano, Alexandra Bell, Boris Bongalov, Josephine M. Chambers, Colleen Corrigan, América P. Durán, Leslie-Anne Duvic-Paoli, Caroline Emilson, Erik J.S. Emilson, Jéssica Fonseca da Silva, Emma E. Garnett, Elizabeth J. Green, Miriam K. Guth, Andrew Hacket-Pain, Amy Hinsley, Javier Igea, Martina Kunz, Sarah H. Luke, William Lynam, Philip A. Martin, Matheus H. Nunes, Nancy Ockendon, Aly Pavitt, Charlotte L.R. Payne, Victoria Plutshack, Tim T. Rademacher, Rebecca J. Robertson, David C. Rose, Anca Serban, Benno I. Simmons, Catherine Tayleur, Claire F.R. Wordley, Nibedita Mukherjee
2018 Conservation Biology

15- Modeling Tree Growth Taking into Account Carbon Source and Sink Limitations
Hayat, Amaury, Andrew J. Hacket-Pain, Hans Pretzsch, Tim T. Rademacher, Andrew D. Friend
2017 Frontiers in Plant Science

16- Evaluation of climate-related carbon turnover processes in global vegetation models for boreal and temperate forests
Thurner, Martin, Christian Beer, Philippe Ciais, Andrew D. Friend, Akihiko Ito, Axel Kleidon, Mark R. Lomas, Shaun Quegan, Tim T. Rademacher, Sibyll Schaphoff, Markus Tum, Andy Wiltshire, Nuno Carvalhais
2017 Global Change Biology

17- Carbon residence time dominates uncertainty in terrestrial vegetation responses to future climate and atmospheric CO2
Friend, Andrew D., Wolfgang Lucht, Tim T. Rademacher, Rozenn Keribin, Richard Betts, Patricia Cadule, Philippe Ciais, Douglas B. Clark, Rutger Dankers, Pete D. Falloon, Akihiko Ito, Ron Kahana, Axel Kleidon, Mark R. Lomas, Kazuya Nishina, Sebastian Ostberg, Ryan Pavlick, Philippe Peylin, Sibyll Schaphoff, Nicolas Vuichard, Lila Warszawski, Andy Wiltshire, F. Ian Woodward
2014 Proceedings of the National Academy of Sciences

18- Quantifying uncertainties in soil carbon responses to changes in global mean temperature and precipitation
Nishina, K., A. Ito, D. J. Beerling, P. Cadule, P. Ciais, D. B. Clark, P. Falloon, A. D. Friend, R. Kahana, E. Kato, R. Keribin, W. Lucht, M. Lomas, T. T. Rademacher, R. Pavlick, S. Schaphoff, N. Vuichard, L. Warszawaski, T. Yokohata
2014 Earth System Dynamics

19- A multi-model analysis of risk of ecosystem shifts under climate change
Warszawski, Lila, Andrew Friend, Sebastian Ostberg, Katja Frieler, Wolfgang Lucht, Sibyll Schaphoff, David Beerling, Patricia Cadule, Philippe Ciais, Douglas B Clark, Ron Kahana, Akihiko Ito, Rozenn Keribin, Axel Kleidon, Mark Lomas, Kazuya Nishina, Ryan Pavlick, Tim Tito Rademacher, Matthias Buechner, Franziska Piontek, Jacob Schewe, Olivia Serdeczny, Hans Joachim Schellnhuber
2013 Environmental Research Letters