|Carbon residence time dominates uncertainty in terrestrial vegetation responses to future climate and atmospheric CO2|
AD Friend, W Lucht, TT Rademacher, R Keribin, R Betts, P Cadule, ...
Proceedings of the National Academy of Sciences 111 (9), 3280-3285, 2014
|A multi-model analysis of risk of ecosystem shifts under climate change|
L Warszawski, A Friend, S Ostberg, K Frieler, W Lucht, S Schaphoff, ...
Environmental Research Letters 8 (4), 044018, 2013
|Quantifying uncertainties in soil carbon responses to changes in global mean temperature and precipitation|
K Nishina, A Ito, DJ Beerling, P Cadule, P Ciais, DB Clark, P Falloon, ...
Earth System Dynamics 5 (1), 197-209, 2014
|Evaluation of climate-related carbon turnover processes in global vegetation models for boreal and temperate forests|
M Thurner, C Beer, P Ciais, AD Friend, A Ito, A Kleidon, MR Lomas, ...
Global Change Biology 23 (8), 3076-3091, 2017
|Modeling Tree Growth Taking into Account Carbon Source and Sink Limitations|
A Hayat, AJ Hacket-Pain, H Pretzsch, TT Rademacher, AD Friend
Frontiers in plant science 8 (182), 2017
|On the need to consider wood formation processes in global vegetation models and a suggested approach|
AD Friend, AH Eckes-Shephard, P Fonti, TT Rademacher, ...
Annals of Forest Science 76 (2), 49, 2019
|Ten‐year assessment of the 100 priority questions for global biodiversity conservation|
T Jucker, B Wintle, G Shackelford, P Bocquillon, JL Geffert, T Kasoar, ...
Conservation Biology, 2018
|Snowmelt and early to mid-growing season water availability augment tree growth during rapid warming in southern Asian boreal forests|
X Zhang, RD Manzanedo, L D’Orangeville, T Rademacher, J Li, X Bai, ...
Global Change Biology, 2019
|Flux Puppy–An open-source software application and portable system design for low-cost manual measurements of CO2 and H2O fluxes|
MS Carbone, B Seyednasrollah, TT Rademacher, D Basler, JM Le Moine, ...
Agricultural and Forest Meteorology 274, 1-6, 2019
|Understanding the uncertainty in global forest carbon turnover|
TAM Pugh, T Rademacher, SL Shafer, J Steinkamp, J Barichivich, ...
Biogeosciences 17 (15), 3961-3989, 2020
|Using direct phloem transport manipulation to advance understanding of carbon dynamics in forest trees|
TT Rademacher, D Basler, AH Eckes-Shephard, P Fonti, AD Friend, ...
Frontiers in Forests and Global Change 2, 11, 2019
|Relocating agriculture could drastically reduce humanity's ecological footprint|
RM Beyer, A Manica, TT Rademacher
BioRxiv, 488841, 2018
|The environmental impacts of palm oil and its alternatives|
RM Beyer, AP Duran, TT Rademacher, P Martin, C Tayleur, SE Brooks, ...
|Stem Compression: A Means to Reversibly Reduce Phloem Transport in Tree Stems|
N Henriksson, TT Rademacher
Phloem, 301-310, 2019
|Response to droughts and heat waves of the productivity of natural and agricultural ecosystems in Europe within ISI-MIP2 historical simulations|
L François, AJ Henrot, M Dury, I Jacquemin, G Munhoven, A Friend, ...
EGUGA, EPSC2016-10385, 2016
|Evidence of unprecedented rise in growth synchrony from global tree ring records|
RD Manzanedo, J HilleRisLambers, TT Rademacher, N Pederson
Nature Ecology & Evolution, 1-8, 2020
|You Have to Do This Work - Increasing Diversity and Inclusion at Harvard Forest|
AM Lewis, C Hart, LG Lee, T Mandra, H Robbins, M Graham MacLean, ...
ESA Annual Fall Meeting 2020, 2020
|Witness tree social media project: Can we increase science engagement with a twittering tree?|
S Greyeyes, C Hart, AD Richardson, K Wyche, T Rademacher
2020 ESA Annual Meeting (August 3-6), 2020
|Wood formation in an evergreen conifer is controlled by phloem transport of labile carbon, but nonstructural carbon concentrations are not|
T Rademacher, P Fonti, JM LeMoine, MV Fonti, D Basler, Y Chen, ...
|A sink-enabled model explains the inter-annual variability of woody growth in a temperate forest|
Y Chen, AH Eckes, TT Rademacher, AD Richardson, P Fonti, JL Moine, ...
AGUFM 2019, B53M-2582, 2019