Aller au contenu

Myriam Lemelin

Professeure, Faculté des lettres et sciences humaines
FLSH Géomatique appliquée

Présentation

Sujet de recherche

Geomatics, Light-Matter Interactions, Geological and Geomorphological Processes, Solar and Planetary Systems, Earth Structure and Composition

Disciplines de recherche

Earth Science

Mots-clés

Geology, Spectroscopy, Planetary Sciences, Applied geomatics, Ice detection, Mineralogy, Radiative transfer, Roughness analysis, Moon, Remote sensing

Centre de recherche

Other

Langues parlées et écrites

Anglais, Français

Diplômes

(2016). (Doctorate, Doctor of Philosoph). University of Hawaii at Manoa.

(2013). (Master's Thesis, Master of Science). Université de Sherbrooke.

(2010). (Bachelor's, Bachelor of Science). Université de Sherbrooke.

Expérience académique

Professor. (2019-). Université de Sherbrooke. Canada.

Research associate (OSIRIS-REx Laser Altimeter project). (2019-2019). York University. Canada.

Research assistant (lunar remote sensing). (2013-2016). University of Hawaii at Manoa. United States of America.

Lecturer (applied geomatics). (2012-2012). Université de Sherbrooke. Canada.

Teaching assistant (applied geomatics). (2010-2010). Université de Sherbrooke. Canada.

Research intern (LiDAR remote sensing). (2009-2009). Université de Sherbrooke. Canada.

Research assistant (applied geomatics). (2008-2008). Université de Sherbrooke. Canada.

Prix et distinctions

  • (2019) Certificate of Reviewing. Planetary and Space Science. (Distinction).
  • (2019) Postdoctoral Fellowships Program. Natural Sciences and Engineering Research Council of Canada (NSERC). (Prize / Award).
  • (2016) Canada Graduate Scholarships – Doctoral. Natural Sciences and Engineering Research Council of Canada (NSERC). (Prize / Award).
  • (2015) Geology and Geophysics achievement award. University of Hawaii at Manoa. (Distinction).
  • (2014) Appreciation of Peer Reviewers for 2014. Journal of Geophysical Research - Planets. (Citation).
  • Coop inspiration - Étoile montante. Université de Sherbrooke. (Distinction).

Financement

  • Contract. (Awarded). Co-investigator. Canadian Lunar Rover Mission (Phases BCD). Canadian Space Agency (CSA). Lunar Exploration Accelerator Program. 43 000 000 $. (2022-2026)
  • Grant. (Awarded). Co-investigator. A Canadian Lunar Research Network for Geology, Geophysics and Prospecting. Canadian Space Agency (CSA). Lunar Exploration Accelerator Program. 900 000 $. (2021-2026)
  • Grant. (Awarded). Principal Investigator. Unmixing the spectral variations of the south polar region to retrieve its composition, volatile content, sources and modification processes. Canadian Space Agency (CSA). Planetary and Astronomy Missions Co-Investigator 2021-2022. 200 000 $. (2022-2026)
  • Grant. (Awarded). Principal Investigator. Unmixing the spectral variations of the south polar region to retrieve its composition, volatile content, sources and modification processes. National Aeronautics and Space Administration (NASA). ROSES 2021: Volatiles Investigating Polar Exploration Rover Co-Investigator Program. (2022-2026)
  • Research Chair. (Awarded). Principal Investigator. Canada Research Chair in Northern and planetary geological remote sensing. Canada Research Chairs (CRC). Tier 2. 500 000 $. (2019-2025)
  • Grant. (Awarded). Principal Investigator. The surface composition and properties of the Earth, the Moon, Mars and asteroids. Natural Sciences and Engineering Research Council of Canada (NSERC). Discovery. 137 500 $. (2020-2025)
  • Grant. (Awarded). Principal Investigator. Canada Research Chair in Northern and planetary geological remote sensing. Canada Foundation for Innovation (CFI). John R. Evans Leaders Fund – Partnerships Proposal. 219 204 $. (2019-2024)
  • Grant. (Awarded). Principal Investigator. Terrestrial Mineral Analysis by Remote Sensing (T-MARS). Canadian Space Agency (CSA). Flights and Fieldwork for the Advancement of Science and Technology proposal (FAST 2019). 99 990 $. (2020-2024)
  • Grant. (Awarded). Co-investigator. Lunar Vertex: Exploring the Intersection of Geoscience and Space Plasma Physics. National Aeronautics and Space Administration (NASA). PRISM-1. 30 000 000 $. (2021-2023)
  • Contract. (Completed). Co-investigator. Canadian Lunar Rover Mission (Phase A). Canadian Space Agency (CSA). Lunar Exploration Accelerator Program. 1 600 000 $. (2021-2022)
  • Grant. (Awarded). Co-investigator. Mineralogical and geochemical investigations of gossans as vectors to critical mineral deposits, Canadian Arctic. Geological Survey of Canada. 19 000 $. (2021-2022)
  • Grant. (Declined). Collaborator. Mesures environnementales in situ et par télédétection pour la modélisation des ressources naturelles: de l'échelle expérimentale à l'échelle du bassin versant. Canada Foundation for Innovation (CFI). 5 225 361 $. (2020-2021)
  • Grant. (Completed). Principal Investigator. Détection des chapeaux de fer dans l’arctique canadien à l’aide de méthodes d’apprentissage profond appliquées aux mégadonnées de télédétection. University of Sherbrooke. Subvention de démarrage. 15 000 $. (2020-2021)
  • Grant. (Awarded). Co-investigator. Uppsala University-Université de Sherbrooke Initiation grant. Swedish Foundation for International Cooperation in Research and higher Education (STINT). 21 073 $. (2020-2021)
  • Fellowship. (Completed). Principal Investigator. Cartography of water ice resources at the lunar poles: calibration of recent Lunar Orbiter Laser Altimeter data and integration to pre-existing remote sensing measurements. Natural Sciences and Engineering Research Council of Canada (NSERC). Postdoctoral Fellowships Program. 90 000 $. (2016-2019)
  • Scholarship. (Completed). Principal Investigator. Étude de la nature et de l'origine du composant mafique de la croûte lunaire. Natural Sciences and Engineering Research Council of Canada (NSERC). Bourse d'études supérieures (ES D). 63 000 $. (2013-2016)
  • Grant. (Awarded). Collaborator. De l’observation de la Terre à distance aux services d’information décisionnelle. Natural Sciences and Engineering Research Council of Canada (NSERC). 1 650 000 $.

Publications

Articles de revue

  • Lemelin, M., Lucey, P.G., and Camon, A. (2022). Compositional maps of the lunar polar regions derived from the Kaguya Spectral Profiler and the Lunar Orbiter Laser Altimeter data. The Planetary Science Journal 3 (63), DOI. (Published).
  • Trang, D., Tonkham, T., Filiberto, J., Li, S., Lemelin, M., and Elder, C. (2022). Remotely sensed intrinsic water in lunar pyroclastic deposits. Icarus DOI. (Published).
  • Lemelin, M., Li, S., Mazarico, E., Siegler, M.A., Kring, D.A., Paige, D.A. (2021). Framework for Coordinated Efforts in the Exploration of Volatiles in the South Polar Region of the Moon. The Planetary Science Journal 2 (3), DOI. (Published).
  • Clabaut, E., Lemelin, M., Germain, M., Bouroubi, Y., and St-Pierre, T. (2021). Model specialization for the use of ESRGAN on satellite and airborne imagery. Remote Sensing 13 (20), DOI. (Published).
  • Cernok, A., White, L.F., Anand, M., Tait, K., Darling, J.P., Whitehouse, M., Miljkovic, K., Lemelin, M., Reddy, S.M., Fougerouse, D., Rickard, W.D.A., Saxey, D.W., and Ghent R. (2021). Pre-Nectarian (~4.2 Gyr) formation of the Serenitatis impact basin on the Moon. Communications Earth & Environment 2 (120), DOI. (Published).
  • Clabaut E, Lemelin M, Germain M, Williamson M-C, Brassard E. (2020). A Deep Learning Approach to the Detection of Gossans in the Canadian Arctic. Remote Sensing 12 (3123), DOI. (Published).
  • Lemelin M, Daly MG, Deliège A. (2020). Analysis of the topographic roughness of the Moon using the Wavelet Leaders Method and the Lunar Digital Elevation Model from the Lunar Orbiter Laser Altimeter and SELENE Terrain Camera. Journal of Geophysical Research - Planets 125 (1), e2019JE006105. DOI. (Published).
  • Clabaut E, Germain M, Goïta K, Morisset C-E, Plante B, Tessier C, Lemelin M, Hébert R, Siebels K. (2020). Mineralogical and lithological unmixing with radiative transfer modelling in an open-pit mine context. Journal of Quantitative Spectroscopy and Radiative Transfer 241 (106707), 1-13. DOI. (Published).
  • Lemelin M, Crites ST, Ohtake M, Lucey PG, Haruyama J, Boston B. (2020). Physical and compositional properties of impact melt on the floors and central peaks of Jackson and Tycho craters: Implications for space weathering of lunar impact melts. Icarus 351 (113926), DOI. (Published).
  • Giguere T, Gillis-Davis J, Boyce J, Hawke J, Lemelin M, Trang D, Lawrence S, Stopar J, Campbell B, Gaddis L, Blewett D, Gustafson JO, Peterson C, Runyon CR. (2020). Volcanic Processes of the Gassendi Region of the Moon. Journal of Geophysical Research - Planets DOI. (Published).
  • Lemelin M, Lucey PG, Miljkovic K, Gaddis LR, Hare T, Ohtake M. (2019). The compositions of the lunar crust and upper mantle: Spectral analysis of the inner rings of lunar impact basins. Planetary and Space Science 165 230-243. (Published).
  • Corley LM, McGovern PJ, Kramer GY, Lemelin M, Trang D, Gillis-Davis JJ, Taylor GJ, Powell KE, Kiefer WS, Wieczorek M, Zuber MT. (2018). Olivine-bearing lithologies on the Moon: Constraints on origins and transport mechanisms from M3 spectroscopy, radiative transfer modeling, and GRAIL crustal thickness. Icarus 300 287-304. (Published).
  • Miljkovic K, Lemelin M, Lucey PG. (2017). Depth of origin of the peak (inner) ring in lunar impact basins. Geophysical Research Letters 44 1-7. (Published).
  • Fisher EA, Lucey PG, Lemelin M, Greenhagen BT, Siegler MA, Mazarico E, Aharonson O, Williams J-P, Hayne PO, Neumann GA, Paige DA, Smith DE, Zuber MT. (2017). Evidence for surface water ice in the lunar polar regions using reflectance measurements from the Lunar Orbiter Laser Altimeter and temperature measurements from the Diviner Lunar Radiometer Experiment. Icarus 292 74-85. (Published).
  • Lucey PG, Greenhagen BT, Song E, Arnold JA, Lemelin M, Donaldson-Hanna K, Bowles N, Glotch T. (2017). Space weathering effects in Diviner Radiometer measurements of the lunar Christiansen Feature: Characteristics and Mitigation. Icarus 283 343-351. (Published).
  • Smith DE, Zuber MT, Neumann GA, Mazarico E, Lemoine FG, Head JW, Lucey PG, Aharonson O, Robinson MS, Sun X, Torrence MH, Barker MK, Oberst J, Duxbury TC, Mao D, Barnouin OS, Jha K, Rowlands DD, Goossens S, Baker D, Bauer S, Gläser P, Lemelin M, Rosenburg M, Sori MM, Whitten J, McClanahan T. (2017). Summary of the results from the Lunar Orbiter Laser Altimeter after seven years in lunar orbit. Icarus 283 70-91. (Published).
  • Trang D, Gillis-Davis JJ, Lemelin M, Cahill JST, Hawke BR, Giguere TA. (2017). The compositional and physical properties of localized lunar pyroclastic deposits. Icarus 283 232-253. (Published).
  • Lemelin M, Lucey PG, Neumann GA, Mazarico EM, Barker EM, Kakazu A, Trang D, Smith DE, Zuber MT. (2016). Improved calibration of reflectance data from the LRO Lunar Orbiter Laser Altimeter (LOLA) and implications for space weathering. Icarus 273 315-328. (Published).
  • Mandt K, Greathouse TK, Retherford KD, Gladstone GR, Jordan AP, Lemelin M, Koeber SD, Bowman-Cisneros E, Patterson WG, Robinson M, Lucey PG, Hendrix AR, Hurley D, Stickle AM, Pryor W. (2015). LRO-LAMP detection of geologically young craters within lunar permanently shaded regions. Icarus 273 114-120. (Published).
  • Lemelin M, Lucey PG, Song E, Taylor JG. (2015). Lunar central peak mineralogy and iron content using the Kaguya Multiband Imager: Reassessment of the compositional structure of the lunar crust. Journal of Geophysical Research Planets 120 (5), 869-887. (Published).
  • Lucey P, Norman JA, Crites ST, Taylor JG, Hawke BR, Lemelin M, Melosh HJ. (2014). A large spectral survey of small lunar craters. American Mineralogist 99 (11-12), 2251–2257. (Published).
  • Lemelin M, Blair DM, Roberts CE, Runyon KD, Nowka D, Kring DA. (2014). High-priority lunar landing sites for in situ and sample return studies of polar volatiles. Planetary and Space Sciences 101 149-161. (Published).
  • Lemelin M, Germain M, Morisset C-E, Hipkin V, Goïta K. (2013). Ilmenite mapping of the lunar regolith over Mare Australe and MareIngenii regions: an optimized multisource approach based on Hapke radiativetransfer theory. Journal of Geophysical Research - Planets 118 1-13. (Published).

Chapitres de livre

  • Blair, D.M., Lemelin, M., Nowka, D., Roberts, C.E. and Runyon, K.D. (2012). Science concept 4: The lunar poles are special environments that may bear witness to the volatile flux over the latter part of solar system history. Kring and Durda. A global lunar landing site study to provide the scientific contexte for Exploration of the Moon (235-291). Lunar and Planeraty Institute. (Published).

Rapports

  • (2021). Final Report of the Lunar Critical Data Products Specific Action Team. Mapping and Planetary Spatial Infrastructure Team.
  • Hurley, D., Lawrence, S., Barber, S., Fa, W., Gertsch, L., Gruener, J., Jaumann, R., Lemelin, M., Neal, C., Sanders, J., Sarantos, M., Carpenter, J., Hong, S., Shin, H., Ju, G., Ja Kim, K., Landgraf, M., Noble, S., Ohtake, M., Friedsen, V., Suzuki, N. (2017). Lunar Exploration Analysis Group - International Space Exploration Coordination Group Volatiles Special Action Team 2. Lunar Explotation Analysis Group. 35 p.
  • Lucey P.G., Bussey B., Elphic R., Fong T., Gladston R., Gruener J., Lemelin M., Neal C., Plescia J., Robinson K., Robinson M., Sacksteder K., Sanders G., Whittaker R., Zacny K., Suzuki N. (2014). Lunar Exploration Analysis Group (LEAG) Volatiles Specific Action Team (VSAT) Final Report 12/31/14. Lunar Exploration Analysis Group. 34 p.

Articles de conférence

  • Lemelin, M., Lucey, P.G., and Camon, A. (2021). Foundational Data Products for the Exploration of the Lunar Polar Regions: Iron, OMAT and Mineralogy using the Kaguya Spectral Profiler and the Lunar Orbiter Laser Altimeter. Lunar and Planetary Science Conference. (Published).
  • (2021). Investigating Water Ice Detections in Lunar Permanently Shaded Regions using the Kaguya Spectral Profiler Data. GAC-MAC. (Published).
  • (2021). Investigating Water Ice Detections in Lunar Permanently Shaded Regions using the Kaguya Spectral Profiler Data. NASA Exploration Science Forum & European Lunar Symposium. (Published).
  • (2021). Towards a better understanding of the lunar polar regions in support of future exploration missions. 2021 Canadian Lunar Workshop. (Published).
  • Banks, M.E., Watkins, R.N., Grier, J.A., Clark, J.D., Watters, T., van der Bogert, C.H., Cahill, J., Lemelin, M., Hahn Jr., T.M., Williams, N.R., and Hiesinger H. (2020). 51th Lunar and Planetary Science Conference. (Published).
  • Lemelin, M., Williamson, M.-C., Léveillé, R.J., et Doucet, F. (2020). Comparative Geologic Mapping of Gossans on Earth and Mars. 51th Lunar and Planetary Science Conference. (Accepted).
  • Clabaut, E., Lemelin, M., and Germain M. (2020). Considering an open-pit mine as a planetary regolith: the hapke radiative transfer model for mineralogical spectral unmixing. Geological Society of America. (Published).
  • Clabaut, E., Lemelin, M., Germain, M., Williamson, M.-C., and Brassard, E. (2020). Convolutional Neural Network and Landsat 8 Imagery to Detect Gossans in the Canadian Arctic. Geological Society of America. (Published).
  • Lemelin, M., Kring, D.A., Li, S., Siegler, M.A., and Mazarico, E. (2020). Framework for Coordinated Efforts in the Exploration of Volatiles in the South Polar Region of the Moon. American Geophysical Union. (Published).
  • Lemelin, M. Li, S., Mazarico, E., Siegler, M., and Kring, D.A. (2020). Framework for Coordinated Efforts in the Exploration of Volatiles in the South Polar Region of the Moon. Lunar Surface Science Workshop. (Published).
  • Grier, J.A., Lemelin, M., Banks, M.E., Watkins, R.N., and Cahill, J. (2020). Investigations of the Optical Maturity of Lobate Scarps: Implications for Our Understanding of Lunar Surface Materials. Geological Society of America. (Published).
  • Grier, J.A., Lemelin, M., Banks, M.E., Watkins, R.N., and Cahill, J. (2020). Investigations of the Optical Maturity of Lobate Scarps: Implications for Our Understanding of Lunar Surface Materials. American Geophysical Union. (Published).
  • Banks, M.E., Watkins, R.N., Grier, J.A., Schleicher, L.S., Watters, T.R., Schmerr, N.C., Bensi, M., Weber, R.C., van der Bogert, C.H., Cahill, J., Lemelin, M., Hahn Jr. T.M.,Clark, J.D., Williams, N.R., and Hiesinger H. (2020). Investigations of young techtonic structures: data collection to assess resource potential and seismic hazard characterization. Lunar Surface Science Workshop. (Published).
  • Lemelin, M. (2020). Location and accessibility of water ice-bearing permanently shadowed regions in the south polar region of the Moon. 51th Lunar and Planetary Science Conference. (Published).
  • Blalock, J.J., Mayer, D.P., Lemelin, M., Sun, L., Lucey, P.G., Gaddis, L.R., and Hare, T.M. (2020). Lunar South Pole Mineral Map Products form Kaguya Multiband Imager. Lunar Surface Science Workshop. (Published).
  • Lemelin, M., Crites, S.T., Ohtake, M., Lucey, P.G., Haruyama, J., and Boston B. (2020). Physical and compositional properties of impact melts for Jackson and Tycho craters: Implications for space weathering and degradation of lunar impact melts. Geological Society of America. (Published).
  • Lemelin, M., Williamson, M.-C., Léveillé, R.J., and DesRochers, B. (2020). Reactive gossans in permafrost as indicators of ancient hydrothermal activity on Mars. American Geophysical Union. (Published).
  • Runyon, K., Prem., P., Cahill, J., Lemelin, M., Moriarty, D., Young, K., Lewis, K., Nunez, J., Ojha, L., Yant, M. and Aaron, M. (2020). Science Enhancements at Amundsen Crater from Mobility. Lunar Surface Science Worshop. (Published).
  • Lemelin, M. (2020). The composition and surface properties of the Moon, Mars and asteroids. Women in Space 2020. (Accepted).
  • Blalock, J.J., Mayer, D.P., Lemelin, M., Sun, L., Lucey, P.G., Gaddis, L.R., and Hare, T.M. (2020). Updated global lunar mineral map products from the Kaguya Multiband Imager. 51th Lunar and Planetary Science Conference. (Published).
  • Lemelin, M., Brassard, E., and Germain, M. (2020). Élaboration d’une plate-forme SIG sur le web pour le partage des résultats de recherche avec les communautés nordiques. Sommet 2020 sur l'infrastructure pancanadienne de données spatiales. (Published).
  • Lemelin M, Daly M, Deliège A. (2019). Analysis of the topographic roughness of the Moonusing the wavelet leaders method and the lunar digitalelevation model from the Lunar Orbiter Laser Altimeter and Selene Terrain Camera. GSA Annual Meeting. (Published).
  • Giguere TA, Gillis-Davis JJ, Lemelin M. (2019). Cryptomare minerology and lava lake processes within the Gassendi crater. 50th Lunar and planetary Science Conference. (Published).
  • Lemelin M, Daly M, Deliège A. (2019). Investigating lunar 2-dimensional topographic properties at differentspatial scales using lunar orbiter laser altimeter data and the wavelet leadersmethod. 50th Lunar and Planetary Science Conference. (Published).
  • Banks ME, Grier JA, Watkins RN, Clark JD, van der Bogert CH, Cahill J, Lemelin M, Hahn Jr TM, Hiesinger H. (2019). Preliminary look at lunar lobate scarpsthrough comparisons of crater counts, photometry, and optical maturity. 50th Lunar and Planetary Science Conference. (Published).
  • Trang D, Lemelin M, Crites ST. (2019). Space weathering maps of the lunar poles using Kaguya Spectral Profiler data. 50th Lunar and Planetary Science Conference. (Published).
  • Robinson KL, Lemelin M, Crites ST. (2019). The search for rock: hunting rare lithologies with high-resolutionglobal lunar mineral maps. 50th Lunar and planetary Science Conference. (Published).
  • Mandt KE, Hurley D, Patterson W, Lemelin M, Greenhagen B, Stickle A, Cahill J, Retherford K, Greathouse T, Gladstone R, Hendrix A, Lucey PG. (2018). Faustini and Slater Craters: PSRs containing geologically young craters. Lunar Science Targets for Landed Missions. (Published).
  • Lemelin M, Daly M, Deliège A. (2018). Investigating Lunar Topographic Properties at Different Spatial Scales using Data from the Lunar Orbiter Laser Altimeter and the Wavelet Leaders Method. 49th Lunar and Planetary Science Conference. (Published).
  • Mandt KE, Mazarico E, Greathouse TK, Retherford KD, Gladstone GR, Byron B, Hurley DM, Stickle AM, Patterson GW, Hendrix AR, Williams J-P, Liu Y, Lemelin M. (2018). Observations of illumination conditions in the Permanently Shadowed Regions (PSRs) with LRO-LAMP. European Planetary Science Congress. (Published).
  • Crites ST, Lemelin M, Lucey PG, Ohtake M. (2018). The mafic component of the lunar highlands crust: Implications for crustal layering and the composition of the lunar mantle. AGU Fall Meeting. (Published).
  • Crites ST, Ohtake M, Lucey PG, Haruyama J, Lemelin M. (2017). Abundance and characteristics of impact melt on lunar central peaks. Japan Geoscience Union Meeting. (Published).
  • Lucey PG, Ohtake M, Yamamoto S, Lemelin M, Crites S. (2017). Global and Local Distribution of Troctolitic Rocks Using KAGUYA Multiband Imager Data and Radiative Transfer Mineral Mapping. 48th Lunar and Planetary Science Conference. (Published).
  • Lucey PG, Lemelin M, Ohtake M, Crites ST, Yamamoto S. (2017). High resolution lunar mineral maps using Kaguya Multiband Imager data. Japan Geoscience Union Meeting. (Published).
  • Mandt KE, Mazarico E, Greathouse TK, Retherford KD, Gladstone GR, Hurley DM, Stickle A, Patterson GW, Hendrix AR, Williams J-P, Lemelin M. (2017). LRO-LAMP Observations of Illumination Conditions in the Lunar South Pole Permanently Shaded Regions. 48th Lunar and Planetary Science Conference. (Published).
  • Crites ST, Ohtake M, Lucey PG, Haruyama J, Lemelin M. (2017). Leveraging Measurements from Kaguya And LRO for a Quantitative Approach to Assist in Geologic Mapping of Lunar Central Peaks. AOGS 14th Annual Meeting. (Published).
  • Lemelin M, Lucey PG, Jha K, Trang D. (2017). Mineralogy and Iron Content of the Lunar Polar Regions using the Kaguya Spectral Profiler and the Lunar Orbiter Laser Altimeter. 48th Lunar and Planetary Science Conference. (Published).
  • Crites ST, Ohtake M, Lucey PG, Haruyama J, Lemelin M. (2017). Rock Abundance as a Potential Discriminator of Impact Melt on Lunar Central Peaks. 48th Lunar and Planetary Science Conference. (Published).
  • Crites ST, Lucey PG, Taylor JG, Martel LMV, Sun L, Honniball CI, Lemelin M, Nishikawa E. (2017). The micron- to kilometer-scale Moon: linking samples to orbital observations, Apollo to LRO. AGU Fall Meeting. (Published).
  • Udovicic CJT, Mazrouei S, Costello E, Ghent RR, Lemelin M, Lucey PG. (2016). A Fresh Look at Aging Lunar Ejecta: Insights from Optical Maturity (OMAT) and Rock Abundance (RA). AGU Fall Meeting. (Published).
  • Lemelin M, Lucey PG, Gaddis LR, Miljkovic K, Ohtake M. (2016). Constraints on the Depth of Origin of Basin Rings and the Composition of the Lunar Crust Using the Kaguya Multiband Imager. Goldschmidt. (Published).
  • Lemelin M, Lucey PG, Gaddis LR, Miljkovic K, Ohtake M. (2016). Constraints on the Depth of Origin of Basin Rings and the Composition of the Lunar Crust Using the Kaguya Multiband Imager. 47th Lunar and Planetary Science Conference. (Published).
  • Miljkovic K, Lemelin M, Lucey PG. (2016). Depth of origin of the inner-most rings in lunar basins. AGU Fall Meeting. (Published).
  • Crites ST, Ohtake M, Lucey PG, Haruyama J, Lemelin M. (2016). Effects of impact mixing contamination on lunar central peak spectra. AGU Fall meeting. (Published).
  • Fisher EA, Lucey PG, Lemelin M, Greenhagen B, Siegler M, Mazarico E, Neumann GA, Smith DA, Zuber MT. (2016). Evidence for Surface Ice at the Lunar South Pole from LRO’s Lunar Orbiter Laser Altimeter and Diviner Lunar Radiometer. 47th Lunar and Planetary Science Conference. (Published).
  • Lemelin M, Lucey PG, Gaddis LR, Hare T, Ohtake M. (2016). Global Map Products from the Kaguya Multiband Imager at 512 ppd: Minerals, FeO, And OMAT. 47th Lunar and Planetary Science Conference. (Published).
  • Lucey PG, Lemelin M, Ohtake M, Gaddis L, Greenhagen B, Yamamoto S, Hare T, Taylor JG, Martel L, Norman J. (2016). Global high-resolution Mineral Maps of the Moon using data from the Kaguya Multiband Imager and LRO Diviner Lunar Radiometer. AGU Fall Meeting. (Published).
  • Lemelin M, LEAG-VSAT team. (2016). High Priority Landing Sites for the Study of Lunar Polar Volatiles: The LEAG VSAT results. Microsymposium 57: Polar Volatiles on the Moon and Mercury. (Published).
  • Mandt KE, Mazarico E, Greathouse TK, Retherford KD, Gladstone GR, Hendrix AR, Hurley DM, Lemelin M, Patterson GW, Bowman-Cisneros E. (2016). LRO-LAMP Observations of Illumination Conditions in the Lunar South Pole: Implications for Volatile Retention. New Views of the Moon. (Published).
  • Lemelin M, Lucey PG, Trang D, Jha K. (2016). Mineralogy and Iron Content of the Lunar Polar Regions using the Kaguya Spectral Profiler and the Lunar Orbiter Laser Altimeter. New Views of the Moon. (Published).
  • Lemelin M, Lucey PG, Trang D, Jha K. (2016). Mineralogy and Iron Content of the Lunar Polar Regions using the Kaguya Spectral Profiler and the Lunar Orbiter Laser Altimeter. AGU Fall Meeting. (Published).
  • Fisher EA, Lucey PG, Lemelin M, Greenhagen B, Siegler M, Mazarico E, Neumann GA, Smith DA, Zuber MT. (2016). Search for lunar volatiles using the Lunar Orbiter Laser Altimeter and the Diviner Lunar Radiometer. AGU Fall Meeting. (Published).
  • Greenhagen B, Lucey PG, Glotch TD, Arnold JA, Bandfield JL, Bowles NE, Donaldson Hanna KL, Hayne PO, Lemelin M, Shirley KA, Song E, Paige DA. (2016). Space weathering in the thermal infrared: lessons from LRO Diviner. AGU Fall Meeting. (Published).
  • Lemelin M, Lucey PG, Greenhagen B, Paige DA, Schorghofer N, Siegler M, Hayne P, Mazarico E, Neumann G, Smith D, Zuber MT. (2015). A search for transient water frost at the lunar poles using the Lunar Orbiter Laser Altimeter. 46th Lunar and Planetary Science Conference. (Published).
  • Mandt KE,Greathouse TK, Retherford KD, Gladstone GR, Jordan AP, Lemelin M, Koeber SD, Bowman-Cisneros E, Patterson GW, Robinson M, Lucey PG, Hendrix AR, Hurley D, Stickle AM, Pryor W. (2015). LRO-LAMP detection of geologically young craters in lunar south pole permanently shaded regions. 2015 Annual Meeting of the Lunar Exploration Analysis Group. (Published).
  • Lemelin M, Lucey PG, Gaddis LR, Miljkovic K. (2015). The Composition of the Lunar Crust - as Revealed by the Study of Impact Basin Rings using the Kaguya Multiband Imager. AGU Fall Meeting. (Published).
  • Trang D, Gillis-Davis JJ, Lemelin M, Cahill JTS, Ghent RR, Hawke BR, Giguere TA. (2015). The compositional and physical properties of localized pyroclastic deposits. 46th Lunar and Planetary Science Conference. (Published).
  • Lemelin M, Lucey PG, Song E, Paige D, Greenhagen B, Siegler M, Hayne P, Mazarico E, Neumann G, Smith D, Zuber MT. (2014). A search for transient water frost at the lunar poles using LOLA. AGU Fall Meeting. (Published).
  • Greenhagen BT, Lucey PG, Lemelin M, Song E, Isaacson PJ, Donaldson Hanna KL, Thomas IR, Bowles NE. (2014). High Fidelity Mineral Maps of Moscoviense BasinIntegrating Thermal and Near Infrared Multispectral Imaging. 45th Lunar and Planetary Science Conference. (Published).
  • Song E, Lemelin M, Lucey PG, Greenhagen BT. (2014). Lunar Crater Central Peak Mineral Maps - Near- And Mid-Infrared Spectroscopy. 45th Lunar and Planetary Science Conference. (Published).
  • Lemelin M, Lucey PG, Song E. (2014). Reassessment of Lunar Central Peak Mineralogy and Iron Content Using the Kaguya Multiband Imager. 45th Lunar and Planetary Science Conference. (Published).
  • Crites ST, Lucey PG, Norman JA, Taylor JG, Hawke BR, Lemelin M. (2014). The Mafic Component of the Lunar Crust. 45th Lunar and Planetary Science Conference. (Published).

Autres contributions

Cours enseignés

  • SIG et communication graphique. GMQ727. (2020-01-07 à 2021-12-17).(3CR).
  • Séminaire de modélisation spatiale. GMQ701. (2020-01-07 à 2021-04-30).(3CR).
  • Géopositionnement. GMQ103. (2012-09-25 à 2012-12-21).
  • Travaux pratiques de géopositionnement. GMQ104. (2012-09-25 à 2012-12-21).

Gestion d'évènements

  • Program Committee Member. (2021) Canadian Lunar Workshop. (Conference).
  • Program Committee Member. (2021) Lunar and Planetary Science Conference. (Conference).

Activités de collaboration internationale

  • Co-investigator on the Canadian Lunar Rover Mission. Canada. One of the program elements within LEAP is the development, launch, and operation of a Canadian rover, set to perform technology demonstration. Canadian company Canadensys was selected to build with its partners the Canadian lunar rover as well as to develop the Canadian payloads. The rover will explore a polar region of the Moon as early as 2026. The mission will demonstrate key technologies and will gather scientific data with its six scientific payloads (five Canadian and one American) to help find water ice and allow scientists to better understand the lunar geology and environment. The mission will aim to gather imagery, measurements, and data on the surface of the Moon, as well as to have the rover survive an entire night on the Moon. Lunar nights, which last about 14 Earth days, are extremely cold and dark, posing a significant technological challenge.
  • Co-investigator on the VIPER mission. United States of America. NASA’s Volatiles Investigating Polar Exploration Rover, or VIPER, is a mobile robot that will go to the South Pole of the Moon to get a close-up view of the location and concentration of water ice that could eventually be harvested to sustain human exploration on the Moon, Mars — and beyond. VIPER represents the first resource mapping mission on another celestial body. .
  • Co-investigator on the Lunar Vertex mission. United States of America. The Johns Hopkins Applied Physics Laboratory (APL) leads a project to visit and drive across the Reiner Gamma magnetic anomaly on the Moon.
  • Member of the Center for Lunar Science and Exploration (CLSE). United States of America. Member of the Center for Lunar Science and Exploration (CLSE) project “Transformative Lunar Science and Exploration: Integrating sample analyses, mission studies, and next-generation training to meet the strategic goals of science and human exploration”. This project is being funded by NASA's Solar System Exploration Research Virtual Institute (SSERVI).
  • Collaborator on the OSIRIS-REx mission. United States of America. Collaborator for the OSIRIS-REx Laser Altimeter instrument currently in orbit around Bennu.
  • Member of the Lunar Exploration Analysis Group (LEAG) Special Action Team (SAT) Lunar Polar Volatile. United States of America. Member of the Lunar Exploration Analysis Group (LEAG) Special Action Team (SAT) Lunar Polar Volatiles Charter. The LEAG SAT brought together an international team of experts nominated by the Internal Space Exploration Coordination Group (ISECG) space agencies to review the different lunar mission plans. The LEAG SAT provided input on landing sites, orbital plans, payloads, measurement objectives, sample return efforts, instrument calibration/validation and data sharing for various spatial agencies.
  • Member of the Lunar Exploration Analysis Group (LEAG) Volatiles Specific Action Team (VSAT). United States of America. Member of the Lunar Exploration Analysis Group (LEAG) Volatiles Specific Action Team (VSAT). Upon NASA’s Human Exploration and Operations Mission Directorate (HEOMD) request, the Lunar Exploration Analysis Group (LEAG) established the Lunar Polar Volatiles Specific Action Team (VSAT) to select and prioritize regions of interest with the potential of accessible volatiles that may support a synergistic approach of multiple missions.
  • Member of the Mapping and Planetary Spatial Infrastructure Team (MAPSIT) Steering Committee. United States of America. The acquisition, organization and analysis of planetary spatial data, including images, cartography and geologic mapping is critical for linking science investigation and exploration planning for all solid bodies in the Solar System. The Mapping and Planetary Spatial Infrastructure Team (MAPSIT) is a community-based, interdisciplinary forum for the discussion, analysis, and representation of matters concerning the creation and development of planetary geographic information and cartographic products, a program of sustained planetary geologic mapping, and the tools necessary for these capabilities, particularly as they pertain to the future direction of the Cartography Program executed by the United States Geological Survey. The MAPSIT mission is to advance American objectives in space achievement by ensuring that planetary data is usable for any conceivable purpose, now or in the future, by the scientific and engineering communities.

Présentations

  • (2022). Artemis, le programme qui transformera la conquête de l’espace. Les années lumières - Radio-Canada. Montreal, Canada
  • (2021). Framework for Coordinated Efforts in the Exploration of the South Polar region of the Moon. Western University Seminar.
  • (2021). L'exploration spatiale: le futur est à nos portes. AstroMIL. Montreal, Canada
  • (2021). Pourquoi n'y a-t-il pas de vie sur la Lune?. Moteur de recherche - Radio-Canada. Montreal, Canada
  • (2021). Recherches pour des missions lunaires: Myriam Lemelin, professeure à l'UdeS. Par ici l'info, Renée Dumais Beaudoin - Radio-Canada Estrie. Sherbrooke, Canada
  • (2021). Télédétection des minéraux et des substances volatiles sur la Lune : perspectives passées, présentes et futures. Midi-MAP. Canada
  • (2021). Vers une nouvelle ère d'exploration lunaire. Séminaire d'astrophysique - Université de Montréal. Montreal, Canada
  • (2020). La géomatique au-delà de la Terre : utilisation dans le domaine des sciences spatiales. GIS Day. Sherbrooke, Canada
  • (2020). The composition of the lunar crust: An in-depth remote sensing view. Planetary Geology class (GEOL-4303-010), Angelo State University. United States of America
  • Lemelin M, Lucey PG, Trang D, Jha K. (2019). Mineralogy and Iron Content of the Lunar Polar Regions using the Kaguya Spectral Profiler and the Lunar Orbiter Laser Altimeter (oral). Lunar Reconnaissance Orbiter Project Science Working Group 31. United States of America
  • (2019). Remote sensing observations of lunar mineral and water ice resources: past, present, and future perspectives. Geological Survey of Canada - Logan Club. Ottawa, Canada
  • Lemelin M, Lucey PG, Gaddis LR, Miljkovic K, Ohtake M. (2016). Optical maturity (OMAT) using the Kaguya Multiband Imager data (oral). Lunar Reconnaissance Orbiter Camera Science Team Meeting. United States of America
  • Lemelin M, Lucey PG, Song E, Taylor GJ, Gaddis LR, Miljkovic K, Ohtake M. (2016). The composition of central peaks and basin rings using the Kaguya Multiband Imager data (oral). Lunar Reconnaissance Orbiter Camera Science Team Meeting. United States of America
  • Lemelin M. (2015). Volatiles at the poles of the Moon: The Remote Sensing View of the Puzzle (oral). The Hawaii Space Lecture Series. Honolulu, United States of America
  • Lemelin M. (2014). De l'École Secondaire Saint-Joseph à la Lune. French class (high school) at École Secondaire Saint-Joseph. Saint-Hyacinthe, Canada