2022
Schmidt, M. ., Davidson, S. ., & Strack, M. . (2022). CO2 uptake decreased and CH4 emissions increased in first two years of peatland seismic line restoration. Wetlands Ecology and Management, 30. https://doi.org/10.1007/s11273-022-09858-4
Engering, A. ., Davidson, S. ., Xu, B. ., Bird, M. ., Rochefort, L. ., & Strack, M. . (2022). Restoration of boreal peatland impacted by an in-situ oil sands well-pad 2: Greenhouse gas exchange dynamics. Restoration Ecology, 30. https://doi.org/10.1111.rec.13508
Goud, E. ., Touchette, S. ., Strachan, I. ., & Strack, M. . (2022). Graminoids vary in functional traits, carbon dioxide and methane fluxes in a restored peatland: Implications for modelling carbon storage. Journal of Ecology. https://doi.org/doi.org/10.1111/1365-2745.13932
Davidson, S. ., Daze, . ., Byun, E. ., Hiler, D. ., Kangur, M. ., Talbot, J. ., Finkelstein, S. ., & Strack, M. . (2022). The unrecognized importance of carbon stocks and fluxes from swamps in Canada and the USA. Environmental Research Letters, 17. https://doi.org/doi.org/10.1088/1748-9326/ac63d5
Kleinke, K. ., Davidson, S. ., Schmidt, M. ., Xu, B. ., & Strack, M. . (2022). How mounds are made matters: Seismic line restoration techniques affect peat physical and chemical properties throughout the peat profile. Canadian Journal of Forest Research. https://doi.org/10.1139/cjfr-2022-0015
Strack, M. ., Davidson, S. ., Hirano, T. ., & Dunn, C. . (2022). The potential of peatlands as nature-based climate solutions. Current Climate Change Reports, 8. https://doi.org/10.1007/s40641-022-00183-9
Lemmer, M. ., Xu, B. ., Strack, M. ., & Rochefort, L. . (2022). Reestablishment of peatland vegetation following surface leveling of decommissioned in situ oil mining infrastructures. Restoration Ecology. https://doi.org/10.1111/rec.13714
Xu, B. ., Rochefort, L. ., Bird, M. ., Khadka, B. ., & Strack, M. . (2022). Restoration of boreal peatland impacted by an in-situ oil sands well-pad 1: Vegetation response. Restoration Ecology, 30. https://doi.org/10.1111/rec.13514
2021
Murray, K. ., Bird, M. ., Cody, M. ., Strack, M. ., & Xu, B. . (2021). Restoration approach influences carbon exchange at in-situ oil sands exploration sites in east-central Alberta. Wetlands Ecology and Management, 29, 281-299. https://doi.org/10.1007/s11273-021-09784-x
Harris, L. ., Richardson, K. ., Bona, K. ., Davidson, S. ., Finkelstein, S. ., Garneau, M. ., McLaughlin, J. ., Nwaishi, F. ., Olefeldt, D. ., Packalen, M. ., Roulet, N. ., Southee, M. ., M, S. ., Webster, K. ., Wilkinson, S. ., & Ray, J. . (2021). The essential carbon service provided by northern peatlands. Frontiers in Ecology and the Environment. https://doi.org/10.1002/fee.2437
Bieniada, A. ., & Strack, M. . (2021). Steady and ebullitive methane fluxes from active, restored and unrestored horticultural peatlands. Ecological Engineering, 169. Retrieved from https://www.sciencedirect.com/science/article/pii/S0925857421001798
Davidson, S. ., Smith, M. ., Prystupa, E. ., Murray, K. ., Nwaishi, F. ., Petrone, R. ., & Strack, M. . (2021). High sulphate concentrations maintain low methane emissions at a constructed fen over the first seven years of ecosystem development. Science of the Total Environment, 789. https://doi.org/10.1016/j.scitotenv.2021.148014
Davidson, S. ., Goud, E. ., Malhotra, A. ., Estey, C. ., Korsah, P. ., & Strack, M. . (2021). Linear disturbances shift boreal peatland plant communities toward earlier peak greenness. Journal of Geophysical Research - Biogeosciences, 126. https://doi.org/10.1029/2021JG006403
Olefeldt, D. ., Hovemyr, M. ., Kuhn, M. ., Bastviken, D. ., Bohn, T. ., Connolly, J. ., Crill, P. ., Euskirchen, E. ., Finkelstein, S. ., Genet, H. ., Grosse, G. ., Harris, L. ., Heffernen, L. ., Helbig, M. ., Hugelius, G. ., Hutchins, R. ., Juutinen, S. ., Lara, M. ., Malhotra, A. ., Manies, K. ., McGuire, A. ., Natali, S. ., O’Donnell, J. ., Parmentier, F. ., Räsänen, A. ., Schaedel, C. ., Sonnentag, O. ., Strack, M. ., Tank, S. ., Treat, C. ., Varner, R. ., Virtanen, T. ., Warren, R. ., & Watts, J. . (2021). The Boreal-Arctic Wetland and Lake Dataset (BAWLD). Earth System Science Data, 13.
Drever, C. ., Cook-Patton, S. ., Akhter, F. ., Badiou, P. ., Chmura, G. ., Davidson, S. ., DesJardins, R. ., Dyk, A. ., Fargione, J. ., Fellows, M. ., Filewood, B. ., Hessing-Lewis, M. ., Jayasundara, S. ., Keeton, W. ., Koeger, T. ., Lark, T. ., Le, E. ., Leavitt, S. ., LeClerc, M.-E. ., Lemprière, T. ., Metsaranta, J. ., McConkey, B. ., Neilson, E. ., St-Laurent, P. ., Puric-Mladenovic, D. ., Rodrigue, S. ., Soolanayakanahally, R. ., Spawn, S. ., Strack, M. ., Smyth, C. ., Thevathasan, N. ., Voicu, M. ., Williams, C. ., Woodbury, P. ., Worth, D. ., Xu, Z. ., Yeo, S. ., & Kurz, W. . (2021). Natural climate solutions for Canada. Science Advances, 7, eabd6034. Retrieved from https://advances.sciencemag.org/content/7/23/eabd6034
Nugent, K. ., Strachan, I. ., Strack, M. ., Roulet, N. ., Ström, L. ., & Chanton, J. . (2021). Cutover peat limits methane production causing low emission at a restored peatland. Journal of Geophysical Research - Biogeosciences, 126. https://doi.org/10.1029/2020JG005909
Coulas, M. ., Parsons, C. ., Saraswati, S. ., & Strack, M. . (2021). Organic matter decomposition at a constructed fen in the Athabasca Oil Sands region: Effect of substrate type and environmental conditions. Science of the Total Environment, 776. Retrieved from https://www.sciencedirect.com/science/article/pii/S0048969721007762
Irvine, S. ., Davidson, S. ., Price, J. ., & Strack, M. . (2021). Dissolved organic carbon production and transport within a constructed fen watershed in the Athabasca Oil Sands Region, Alberta, Canada. Journal of Hydrology. https://doi.org/10.1016/j.jhydrol.2021.126493
2020
Bechtold, M. ., Lannoy, G. ., Reichle, R. ., Roose, D. ., Balliston, N. ., Burden, I. ., Devito, K. ., & Kurbatova, J. . (2020). Improved groundwater table and L-band brightness temperature estimates for northern hemisphere peatlands using new model physics and SMOS observations in a global data assimilation framework. Remote Sensing of the Environment, 246. https://doi.org/10.1016/j.rse.2020.111805
Lazcano, C. ., Deol, A. ., Brummell, M. ., & Strack, M. . (2020). Interactive effects of vegetation and water table depth on belowground C and N mobilization and greenhouse gas emissions in a restored peatland. Plant and Soil, 448, 299-313. https://doi.org/https://doi.org/10.1007/s11104-020-04434-2
Gupta, P. ., Gharedaghloo, B. ., Lynch, M. ., Cheng, J. ., Strack, M. ., Charles, T. ., & Price, J. . (2020). Dynamics of microbial populations and diversity in NAPL contaminated peat soil under varying water table conditions. Environmental Research, 191. https://doi.org/10.1016/j.envres.2020.110167
HassanpourFard, G. ., Farries, E. ., Berube, . ., Rochefort, L. ., & Strack, M. . (2020). Key species superpose the effect of species richness and species interaction on carbon fluxes in a restored minerotrophic peatland. Wetlands, 40, 333-349.
Bravo, T. ., Brummell, M. ., Rochefort, L. ., & Strack, M. . (2020). Effects of invasion by birch on the growth of planted spruce at a post-extraction peatland. Mires and Peat, 16. https://doi.org/10.19189/MaP.2019.OMB.StA.1807
Bieniada, A. ., Date, . ., Andersen, R. ., Nwaishi, F. ., Price, J. ., Mahmood, M. ., & Strack, M. . (2020). Methane emissions from fens in Alberta's boreal regions: Reference data for functional evaluation of restoration outcomes. Wetlands Ecology and Management, 28, 559-575. https://doi.org/10.1007/s111273-020-09715-2
Lemmer, M. ., Rochefort, L. ., & Strack, M. . (2020). Greenhouse gas emissions dynamics in restored fens after in-situ oil sands well pad disturbances of Canadian boreal peatlands. Frontiers in Earth Science, 8. https://doi.org/10.3389/feart.2020.557943
Saraswati, S. ., Bhusal, Y. ., Trant, A. ., & Strack, M. . (2020). Roads impact tree and shrub productivity in adjacent boreal peatlands. Forests, 11. https://doi.org/10.3390/f11050594
Saraswati, S. ., Petrone, R. ., Rahman, M. ., McDermid, G. ., Xu, B. ., & Strack, M. . (2020). Hydrological effect of resource-access roads on boreal forested peatlands. Journal of Hydrology, 584. https://doi.org/10.1016/j.jhydrol.2020.124748
Davidson, S. ., Goud, E. ., Franklin, C. ., Nielsen, S. ., & Strack, M. . (2020). Seismic line disturbance alters soil physical and chemical properties across boreal forest and peatland soils. Frontiers in Earth Science, 8. https://doi.org/10.3389/feart.2020.00281
2019
Strack, M. ., Munir, T. ., & Khadka, B. . (2019). Shrub abundance contributes to shifts in dissolved organic carbon concentration and chemistry in a continental bog exposed to drainage and warming. Ecohydrology, 12, e2100. https://doi.org/10.1002/eco.2100
Davidson, S. ., Elmes, M. ., Rogers, H. ., van Beest, C. ., Petrone, R. ., Price, J. ., & Strack, M. . (2019). Hydrogeologic setting overrides any influence of wildfire on pore water dissolved organic carbon (DOC) concentration and quality at a boreal fen. Ecohydrology, 12, e2141. Retrieved from https://onlinelibrary.wiley.com/doi/abs/10.1002/eco.2141
Davidson, S. ., van Beest, C. ., Petrone, R. ., & M, S. . (2019). Wildfire overrides hydrological controls on boreal peatland methane emissions. Biogeosciences, 16, 2651-2660. Retrieved from https://www.biogeosciences.net/16/2651/2019/
Murray, K. ., Yi, M. ., Brummell, M. ., & Strack, M. . (2019). The influence of Carex aquatilis and Juncus balticus on methane dynamics: a comparison with water source from a natural and constructed fen. Ecological Engineering, 139, 105585. Retrieved from https://www.sciencedirect.com/science/article/abs/pii/S0925857419302939
Strack, M. ., Hayne, S. ., Lovitt, J. ., McDermid, G. ., Rahman, M. ., Saraswati, S. ., & Xu, B. . (2019). Petroleum exploration increases methane emission in northern peatlands. Nature Communications, 10, 2804. Retrieved from https://www.nature.com/articles/s41467-019-10762-4
Nugent, K. ., Strachan, I. ., Roulet, N. ., Strack, M. ., Frolking, S. ., & Helbig, M. . (2019). Prompt active restoration of peatlands substantially reduces climate impact. Environmental Research Letters, 124030. Retrieved from https://iopscience.iop.org/article/10.1088/1748-9326/ab56e6/pdf
Saraswati, S. ., Parsons, C. ., & Strack, M. . (2019). Access roads impact enzyme activities in boreal forests peatlands. Science of the Total Environment, 651, 1405-1451.
Saraswati, S. ., & Strack, M. . (2019). Road crossings increase methane emissions from adjacent peatland. Journal of Geophysical Research - Biogeosciences, 124, 3588-3599. Retrieved from https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/2019JG005246
Davidson, S. ., Strack, M. ., Bourbonniere, R. ., & Waddington, J. . (2019). Controls on carbon dioxide (CO2) and methane (CH4) emissions from a peat swamp vary by hydrogeomorphic setting. Ecohydrology, 12, e2162. Retrieved from https://onlinelibrary.wiley.com/doi/abs/10.1002/eco.2162
2018
Rankin, T. ., Strachan, I. ., & Strack, M. . (2018). Carbon dioxide and methane exchange at a post-extraction, unrestored peatland. Ecological Engineering, 122, 241-251. https://doi.org/10.1016/j.ecoleng.2018.06.021
Lovitt, J. ., Rahman, M. ., Saraswati, S. ., McDermid, G. ., Strack, M. ., & Xu, B. . (2018). UAV remote sensing can reveal the effects of low impact seismic lines on methane (CH4) release in a forested boreal bog. Journal of Geophysical Research - Biogeosciences, 123, doi: 10.1002/2017JG004232.
He, A. ., McDermid, G. ., Rahman, M. ., Strack, M. ., Saraswati, S. ., & Xu, B. . (2018). Developing allometric equations for estimating shrub biomass in a boreal fen. Forests, 9. https://doi.org/10.3390/f9090569
MacDonald, E. ., Brummell, M. ., Bieniada, A. ., Elliot, J. ., Engering, A. ., Gauthier, T.-L. ., Saraswati, S. ., Touchette, S. ., Turmel-Courchesne, L. ., & M, S. . (2018). Using the Tea Bag Index to characterize decomposition rates in restored peatlands. Boreal Environment Research, 23, 221-235. Retrieved from http://www.borenv.net/BER/pdfs/ber23/ber23-221-235.pdf
Bravo, T. ., Rochefort, L. ., & Strack, M. . (2018). The impact of black spruce (Picea mariana) plantation on carbon exchange in a cutover peatland in western Canada. Canadian Journal of Forest Research, 48, 388-398.
Strack, M. ., Softa, D. ., Bird, M. ., & Xu, B. . (2018). Impact of winter roads on boreal peatland carbon exchange. Global Change Biology, 24, e201-e212. https://doi.org/10.1111/gcb.13844
Nugent, K. ., Strachan, I. ., Strack, M. ., Roulet, N. ., & Rochefort, L. . (2018). Multi-year net ecosystem carbon balance of a restored peatland reveals a return to a carbon sink. Global Change Biology. https://doi.org/10.1111/gcb14449
Lazcano, C. ., Robinson, C. ., Fard, H. ., & Strack, M. . (2018). Short-term effects of fen peatland restoration through the moss layer transfer technique on the soil CO2 and CH4 efflux. Ecological Engineering, 125.
2017
Murray, K. ., Barlow, N. ., & Strack, M. . (2017). Methane emission dynamics from a constructed fen and reference sites in the Athabasca Oil Sands, Alberta. Science of the Total Environment, 583, 369-381.
Murray, K. ., Barlow, N. ., & Strack, M. . (2017). Methane emission dynamics from a constructed fen and reference sites in the Athabasca Oil Sands. Science of the Total Environment, 583.
Strack, M. ., Mwakanyamale, K. ., Fard, H. ., Bird, M. ., Berube, . ., & Rochefort, L. . (2017). Effect of plant functional type on methane dynamics in a restored minerotrophic peatland. Plant and Soil, 410, 231-246. https://doi.org/10.1007/s11104-016-2999-6
Munir, T. ., Khadka, B. ., Xu, B. ., & Strack, M. . (2017). Mineral nitrogen and phosphorus pools affected by water table lowering and warming in a boreal forested peatland. Ecohydrology, 10, https://doi.org/10.1002/eco.1893. https://doi.org/10.1002/eco.1893
Brummell, M. ., Lazcano, C. ., & Strack, M. . (2017). The effects of Eriophorum vaginatum on N2O fluxes at a restored, extracted peatland. Ecological Engineering, 106, 287-295.
Rahman, M. ., McDermid, G. ., Strack, M. ., & Lovitt, J. . (2017). A new method to map groundwater table in peatlands using unmanned aerial vehicles. Remote Sensing, 9, doi:10.3390/rs9101057. Retrieved from https://www.mdpi.com/2072-4292/9/10/1057
Brown, C. ., Strack, M. ., & Price, J. . (2017). The effects of water management on the CO2 uptake of Sphagnum moss in a reclaimed peatland. Mires and Peat, 20. Retrieved from http://mires-and-peat.net/pages/volumes/map20/map2005.php
Munir, T. ., Khadka, B. ., Xu, B. ., & Strack, M. . (2017). Partitioning forest-floor respiration into source based emissions in a boreal forested bog: response to experimental drought. Forests, 8, doi: 10.3390/f8030075.
Murray, K. ., Borkenhagen, A. ., Cooper, D. ., & Strack, M. . (2017). Growing season carbon gas exchange from peatlands used a source of vegetation donor material for restoration. Wetlands Ecology and Management, 25, 501-515. https://doi.org/10.1007s11273-017-9531-5
2016
Nwaishi, F. ., Petrone, R. ., Price, J. ., Macrae, M. ., Strack, M. ., Slawson, R. ., & Andersen, R. . (2016). Above and below-ground nutrients cycling: a criteria for assessing the biogeochemical functioning of a constructed fen in the Athabasca oil sands region, Canada. Applied Soil Ecology, 98, 177-194. https://doi.org/10.1016/j.apsoil.2015.10.015
Evans, C. ., Renou-Wilson, F. ., & Strack, M. . (2016). The role of waterborne carbon in the greenhouse gas balance of drained and re-wetted peatlands. Aquatic Sciences, 78, 573-590. https://doi.org/10.1007/s00027-015-0447-y
Strack, M. ., Cagampan, J. ., Fard, H. ., Keith, A. ., Nugent, K. ., Rankin, T. ., Robinson, C. ., Strachan, I. ., Waddington, J. ., & Xu, B. . (2016). Controls on plot-scale growing season CO2 and CH4 fluxes in restored peatlands: Do they differ from unrestored and natural sites?. Mires and Peat, 17. Retrieved from http://mires-and-peat.net/pages/volumes/map17/map1705.php
Wood, M. ., Macrae, M. ., Strack, M. ., Price, J. ., Osko, T. ., & Petrone, R. . (2016). Spatial variation in nutrient dynamics among five different peatland types in the Alberta oil sands region. Ecohydrology, 9, 688-699. https://doi.org/10.1002/eco.1667
Khadka, B. ., Munir, T. ., & Strack, M. . (2016). Dissolved organic carbon in a constructed and natural fens in the Athabasca oil sands region, Alberta, Canada. Science of the Total Environment, 557-558. https://doi.org/10.1016/j.scitotenv.2016.03.081
Wilson, D. ., Blain, D. ., Couwenberg, J. ., Evans, C. ., Murdiyarso, D. ., Page, S. ., Renou-Wilson, F. ., Rieley, J. ., Sirin, A. ., Strack, M. ., & Tuittila, E. . (2016). Greenhouse gas emission factors associated with rewetting of organic soils. Mires and Peat, 17. Retrieved from http://mires-and-peat.net/pages/volumes/map17/map1704.php
Taylor, N. ., Price, J. ., & Strack, M. . (2016). Hydrologic controls on productivity of regenerating Sphagnum in a cutover peatland. Ecohydrology, 9, 1017-1027. https://doi.org/10.1002/eco.1699
Nwaishi, F. ., Petrone, R. ., Macrae, M. ., Price, J. ., Strack, M. ., Slawson, R. ., & Andersen, R. . (2016). Preliminary assessment of greenhouse gas emissions from a fen peatland constructed on a post-oil sand mining landscape. Ecological Engineering, 95. https://doi.org/10.1016/j.ecoleng.2016.06.061
2015
Munir, T. ., Perkins, M. ., Kaing, E. ., & Strack, M. . (2015). Carbon dioxide flux and net primary production of a boreal treed bog: responses to warming and water table manipulations. Biogeosciences, 12, 1091-1111. https://doi.org/10.5194/bg-12-1091-2015
Strack, M. ., Zuback, Y. ., McCarter, C. ., & Price, J. . (2015). Changes in dissolved organic carbon quality in soils and discharge 10 years after peatland restoration. Journal of Hydrology, 527. https://doi.org/10.1016/j.jhydrol.2015.04.061
Khadka, B. ., Munir, T. ., & Strack, M. . (2015). Effect of environmental factors on production and bioavailability of dissolved organic carbon from substrates available in a constructed and reference fens in the Athabasca oil sands development region. Ecological Engineering, 84, 596-606. https://doi.org/10.1016/j.ecoleng.2015.09.061
2014
Blain, D. ., Murdiyarso, D. ., Couwenberg, J. ., Nagata, O. ., Renou-Wilson, F. ., Sirin, A. ., Strack, M. ., Tuittila, E. ., Wilson, D. ., Evans, C. ., Fukuda, M. ., & Parish, F. . (2014). Chapter 3: Rewetted organic soils. 2013 Supplement to the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: Wetlands, IPCC.
Branham, J. ., & Strack, M. . (2014). Saturated hydraulic conductivity in Sphagnum-dominated peatlands: Do microforms matter?. Hydrological Processes, 28. https://doi.org/10.1002/hyp.10228
Sharp, C. ., Smirnova, A. ., Graham, J. ., Stott, M. ., Moore, R. ., Strack, M. ., Grasby, S. ., & Dunfield, P. . (2014). Distribution and diversity of Verrucomicrobia methanotrophs in geothermal and acidic environments. Environmental Microbiology, 16. https://doi.org/10.1111/1462-2920.12454
Comas, X. ., Kettridge, N. ., Binley, A. ., Slater, L. ., Parsekian, A. ., Baird, A. ., Strack, M. ., & Waddington, J. . (2014). The effect of peat structure on the spatial distribution of biogenic gases within bogs. Hydrological Processes, 28. https://doi.org/10.1002/hyp.10056
Strack, M. ., Keith, A. ., & Xu, B. . (2014). Growing season carbon dioxide and methane exchange at a restored peatland on the Western Boreal Plain. Ecological Engineering, 64. https://doi.org/10.1016/j.ecoleng.2013.12.013
Munir, T. ., & Strack, M. . (2014). Methane flux influenced by experimental water table drawdown and soil warming in a dry boreal continental bog. Ecosystems, 17. https://doi.org/10.1007/s10021-014-9795-z
Munir, T. ., Xu, B. ., Perkins, M. ., & Strack, M. . (2014). Responses of carbon dioxide fluxes and plant biomass to water table drawdown in a treed peatland in northern Alberta: a climate change perspective. Biogeosciences, 11. https://doi.org/10.5194/bg-11-807-2014
2013
Strack, M. ., & Zuback, Y. . (2013). Annual carbon balance of a peatland 10 yr following restoration. Biogeosciences, 10. https://doi.org/10.5194/bg-10-2885-2013
Macrae, M. ., Devito, K. ., Strack, M. ., & Waddington, J. . (2013). Effect of water table drawdown on peatland nutrient dynamics: implications for climate change. Biogeochemistry, 112. https://doi.org/10.1007/s10533-012-9730-3
2012
Kettridge, N. ., Binley, A. ., Comas, X. ., Cassidy, N. ., Baird, A. ., Harris, A. ., van der Kruk, J. ., Strack, M. ., Milner, A. ., & Waddington, J. . (2012). Do peatland microforms move through time? Examining the developmental history of a patterned peatland using ground-penetrating radar. Journal of Geophysical Research - Biogeosciences, 117. https://doi.org/10.1029/2011JG0001876
Strack, M. ., & Waddington, J. . (2012). Effects of peat extraction and restoration on greenhouse gas exchange from Canadian peatlands (D. . Vitt & J. . Bhatti, Eds.). Cambridge University Press.
Rochefort, L. ., Strack, M. ., Poulin, M. ., Price, J. ., Graf, M. ., Desrochers, A. ., Lavoie, C. ., & Lapointe, L. . (2012). Northern peatlands (D. . Batzer & A. . Baldwin, Eds.). Berkeley, California: University of California Press.
2011
Strack, M. ., Toth, K. ., Bourbonniere, R. ., & Waddington, J. . (2011). Dissolved organic carbon production and runoff quality following peatland extraction and restoration. Ecological Engineering, 37. https://doi.org/10.1016/j.ecoleng.2011.08.015
Mahmood, M. ., & Strack, M. . (2011). Methane dynamics of recolonized minerotrophic cutover peatland: Implications for restoration. Ecological Engineering, 37. https://doi.org/10.1016/j.ecoleng.2011.06.007
2010
Waddington, J. ., Kellner, E. ., Strack, M. ., & Price, J. . (2010). Differential peat deformation, compressibility, and water storage between peatland microforms: Implications for ecosystem function and development. Water Resources Research, 46. https://doi.org/10.1029/2009WR008802
Strack, M. ., & Mierau, T. . (2010). Evaluating spatial variability of free-phase gas in peat using ground penetrating radar and direct measurement. Journal of Geophysical Research - Biogeosciences, 115. https://doi.org/10.1029/2009JG001045
Lucchese, M. ., Waddington, J. ., Poulin, M. ., Pouliot, R. ., Rochefort, L. ., & Strack, M. . (2010). Organic matter accumulation in a restored peatland: evaluating restoration success. Ecological Engineering, 36.
Waddington, J. ., Strack, M. ., & Greenwood, M. . (2010). Towards restoring the net carbon sink function of degraded peatlands: short-term response in CO2 exchange to ecosystem-scale restoration. Journal of Geophysical Research - Biogeosciences, 115. https://doi.org/10.1029/2009JG001090
2009
Strack, M. ., Waddington, J. ., Lucchese, M. ., & Cagampan, J. . (2009). Moisture controls on CO2 exchange in a Sphagnum-dominated peatland: Results from an extreme drought field experiment. Ecohydrology, 4. https://doi.org/10.1002/eco.68
Waddington, J. ., Plach, J. ., Cagampan, J. ., Lucchese, M. ., & Strack, M. . (2009). Reducing the carbon footprint of Canadian peat extraction and restoration. Ambio, 38. https://doi.org/10.1579/0044-7447-38.4.194
Waddington, J. ., Ketcheson, S. ., Kellner, E. ., Strack, M. ., & Baird, A. . (2009). Evidence that piezometers vent gas from peat soils and implications for pore-water pressure and hydraulic conductivity measurements. Hydrological Processes, 23. https://doi.org/10.1002/hyp.7244
Strack, M. ., & Price, J. . (2009). Moisture controls on carbon dioxide dynamics in peat-Sphagnum monoliths. Ecohydrology, 2. https://doi.org/10.1002/eco.36
2008
Strack, M. ., Waddington, J. ., Bourbonniere, R. ., Buckton, E. ., Shaw, K. ., Whittington, P. ., & Price, J. . (2008). Effect of water table drawdown on peatland dissolved organic carbon export and dynamics. Hydrological Processes. https://doi.org/10.1002/hyp.6931
Price, J. ., Whittington, P. ., Elrick, D. ., Strack, M. ., Brunet, N. ., & Faux, E. . (2008). A method to determine unsaturated hydraulic conductivity in living and undecomposed Sphagnum mosses. Soil Science Society of American Journal, 72. https://doi.org/10.2136/sssaj2007.0111N
Strack, M. ., Waddington, J. ., Turetsky, M. ., Roulet, N. ., & Byrne, K. . (2008). Northern peatland, greenhouse gas exchange and climate change (M. . Strack, Ed.). Saarijärvi, Finland: nternational Peat Society, Saarijärven Offset Oy. Retrieved from http://www.peatsociety.org/index.php?id=236
Strack, M. . (2008). Peatlands and Climate Change. Saarijärvi, Finland: International Peat Society, Saarijärven Offset Oy. Retrieved from http://www.peatsociety.org/index.php?id=236
Strack, M. ., O’Brien, J. ., & Waddington, J. . (2008). Assessing the role of ecological succession for peatland methane dynamics: Potential climate change feedback. Proceedings of the 13th International Peat Congress. Retrieved from http://homepages.ucalgary.ca/~mstrack/Publications_files/Strack\%20et\%20al\%202008\%20\%28IPC\%20Proceedings\%29.pdf
Strack, M. ., & Waddington, J. . (2008). Spatio-temporal variability of subsurface CH4 in peatlands. Journal of Geophysical Research - Biogeosciences, 113. https://doi.org/10.1029/2007JG000472
Kettridge, N. ., Comas, X. ., Baird, A. ., Slater, L. ., Strack, M. ., Thompson, D. ., Jol, H. ., & Binley, A. . (2008). Ecohydrologically important subsurface structures in peatlands are revealed by ground-penetrating radar and complex conductivity surveys. Journal of Geophysical Research - Biogeosciences, 113. https://doi.org/10.1029/2008JG000787
2007
Strack, M. ., & Waddington, J. . (2007). Response of peatland carbon dioxide and methane fluxes to a water table drawdown experiment. Global Biogeochemical Cycles, 21. https://doi.org/10.1029/2006GB002715
Whittington, P. ., Strack, M. ., van Haarlem, R. ., Kaufman, S. ., Stoesser, P. ., J, M. ., Price, J. ., & Stone, M. . (2007). The role of peat volume change and vegetation community on the hydrology of a kettle-hole wetland in Southern Ontario, Canada. Mires and Peat, 2. Retrieved from http://www.mires-and-peat.net
2006
Strack, M. ., Kellner, E. ., & Waddington, J. . (2006). Effect of entrapped gas on peatland surface level fluctuations. Hydrological Processes, 20. https://doi.org/10.1002/hyp.6518
Strack, M. ., Waddington, J. ., Rochefort, L. ., & Tuttila, E. . (2006). Response of vegetation and carbon dioxide exchange at different peatland microforms following water table drawdown. Journal of Geophysical Research - Biogeosciences, 111. https://doi.org/10.1029/2005JG000145
Strack, M. ., Waller, M. ., & Waddington, J. . (2006). Sedge succession and peatland methane dynamics: A potential feedback to climate change. Ecosystems, 9. https://doi.org/10.1007/s10021-005-0070-1
2005
Strack, M. ., Kellner, E. ., & Waddington, J. . (2005). The dynamics of biogenic gas bubble in peat and their effects on peatland biogeochemistry. Global Biogeochemical Cycles, 19. https://doi.org/10.1029/2004GB002330
2004
Strack, M. ., Waddington, J. ., & Tuittila, E. . (2004). The effect of water table drawdown on northern peatland methane emissions: Implications for climate change. Global Biogeochemical Cycles, 18. https://doi.org/10.1029/2003GB002209