Marco Mina

Université du Québec à Montréal Department of Biological Science
141, av. du Président-Kennedy
Montréal, Québec, Canada
H2X 3Y7

Directeur: Christian Messier


Research interests

  • Forest dynamics and succession modelling
  • Use and development of stand- and landscape-scale forest simulation models
  • Impacts of climate change and disturbances on forest ecosystems
  • Management, silviculture and ecosystem services provision from temperate forest ecosystems
  • Forest inventories, tree-ring research, ecology of mixed forests

Employment and formation

  • Since 2018 - Postdoctoral fellow at the Université du Québec à Montréal UQAM, Montreal (Canada)
  • 2016 - 2017 - Postdoc at the Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Birmensdorf (Switzerland)
  • 2012 - 2015 - Ph.D. in Forest Ecology, Swiss Federal Institute of Technology ETH Zurich (Switzerland)
  • 2011 - Research intern at the Paul Scherrer Institute PSI, Villigen (Switzerland)
  • 2010 - M.Sc. in Forestry and Environmental Science - University of Padua (Italy)
  • 2009 - Visiting student at the Chinese Academy of Forestry - Beijing (China)
  • 2007 - B.Sc. in Forestry and Environmental Technology - University of Padua (Italy)

Project Overview

Resilience-based forest management: Coupling simulation modelling with functional diversity and network theory (REDEFiNE)

The increasing frequency, intensity, and uncertainty of high-impact disturbance events due to global change are negatively impacting our ability to predict and manage forest growth and dynamics, therefore challenging the capacity to maintain ecological resilience and ecosystem services from forests worldwide. Forest ecosystems are complex adaptive systems, thus a multi-scale perspective and integrated landscape management approaches are needed to manage forests under increasing socio-ecological changes. One way to make forests more resilient to future threads is to increase functional diversity and redundancy at stand scale, and to optimize functional connectivity, centrality and modularity of forest patches in large fragmented landscapes. All this requires model-based evaluations of future landscape trajectories and a detailed analysis of the forested landscape as a functional complex network. This project aims at coupling simulation modelling with methods based on functional diversity and network theory to determine strategic interventions at stand and landscape scale to maximize the resilience of the forests to known and unknown disturbances with the minimum effort. We work with the spatially-explicit forest landscape model LANDIS-II  with the physiologically-based extension PnET-Succession , upscaling biochemical processes (e.g., photosynthesis, transpiration) from stand (1 ha) to landscape scale (>1M ha). We model forest landscape and disturbance dynamics in Southern Quebec, testing alternative forest management strategies to increase forest resilience to changing climate and disturbance regimes.

The project follows three main research steps:

  1. to couple process-based models of stand- and landscape-scale of forest dynamics with functional diversity and network theory,
  2. to evaluate multi-scale management options for resilience, ecosystem services, and functional diversity under scenarios of uncertain disturbances, and
  3. to determine threshold levels of both fragmentation and functional diversity below which the overall resilience of a landscape is threatened under combinations of pulse and press disturbances.

This project will test novel and innovative ways to implement resilience-based forest management for large fragmented forest landscapes that are typical of temperate ecosystems.

The project is financed via a career funding scheme of the Swiss National Science Foundation  (Grant N. 175101) and by the Canada Research Chair in Forest Resilience to Global Changes .


Peer-Reviewed Articles
  • Irauschek F, Barka I, Bugmann H, Courbaud B, Elkin C, Hlásny T, Klopcic M, Mina M, Rammer W, Lexer MJ. (2021) Evaluating five forest models using multi-decadal inventory data from mountain forests. Ecological Modelling, 445, 109493.
  • Aquilué N, Messier C, Martins KT, Dumais-Lalonde V, and Mina M (2021) A simple-to-use management approach to boost adaptive capacity of forest to global uncertainty. Forest Ecology and Management, 481:118692. Resilience blog 
  • Mina M, Messier C, Fortin MJ, Duveneck M, and Aquilué N (2020) Network analysis can guide resilience-based management in forest landscapes under global change. Ecological Applications. 00(00):e02221. ActualitésUQAM  ESA Press Release  Resilience blog 
  • Messier C, Bauhus J, Doyon F, Maure F, Sousa-Silva R, Nolet P, Mina M, Aquilué N, Fortin MJ and Puettmann K (2019). The functional complex network approach to foster forest resilience to global changes. Forest Ecosystems 6:21. Resilience blog 
  • Mina M, Del Rio M, Huber MO, Thürig E, Rohner B (2018) The symmetry of competitive interactions in mixed Norway spruce, silver fir and European beech forests. Journal of Vegetation Science. 29:775–787. JVS-AVS blog  Forest Monitor  Resilience blog 
  • Mina M, Huber MO, Forrester DI, Thürig E, Rohner B (2018) Multiple factors modulate tree growth complementarity in central European mixed forests. Journal of Ecology. 106:1106–1119. J Ecology Blog  Forest Monitor  WSL News 
  • Houpert L, Rohner B, Forrester DI, Mina M, Huber MO (2018) Mixing Effects in Norway Spruce—European Beech Stands Are Modulated by Site Quality, Stand Age and Moisture Availability. Forests, 9(2), 83.
  • Klopčič M, Mina M, Bugmann H, Bončina A (2017) The prospects of silver fir (Abies alba Mill.) and Norway spruce (Picea abies (L.) Karst) in mixed mountain forests under various management strategies, climate change and high browsing pressure. European Journal of Forest Research. 136(5-6), 1071-1090. Forest Monitor 
  • Mina M, Bugmann H, Klopcic M, Pardos M, Irauschek F, Cordonnier T, Cailleret M (2017) Future ecosystem services from European mountain forests under climate change. Journal of Applied Ecology. 54:389-401. Forest Monitor 
  • Mina M, Martin-Benito D, Bugmann H, Cailleret M (2016) Forward modeling of tree-ring width improves simulation of forest growth responses to drought. Agricultural and Forest Meteorology 221:13-33.
  • Mina M, Bugmann H, Klopcic M, Cailleret M (2015) Accurate modeling of harvesting is key for projecting future forest dynamics: a case study in the Slovenian mountains. Regional Environmental Change. 17:49-64.
  • Meyer N.K., Mina M (2012). Wood energy fuel cycle optimization for beech and spruce forests. Environmental Research Letters, 7, 014001.
Other publications
  • Mina M, Cailleret M, Motta R, Bugmann H (2019) Fruizione futura dei servizi ecosistemici. Prospettive in funzione dei cambiamenti climatici e della gestione nelle foreste montane. Sherwood - Foreste ed Alberi Oggi. 239:23-27. Sherwood 
  • Mina M (2016) Forest dynamics, management and ecosystem services: the future of European mountain forests in an era of climate change. PhD thesis. Available via ETH Zürich , Switzerland. Advisor: Prof. H. Bugmann.
  • Mina M, Bugmann H (2013) Improved and tested forest models for case study regions Component of ARANGE Deliverable D2.1, FP7-289437-ARANGE / D2.1 
  • Mina M (2010) Policies, institutions and markets in the Chinese forestry sector. MSc thesis. University of Padua, Italy. Advisor: Prof. D. Pettenella (Forest Policy and Economics)
  • Mina M (2007) Evolution of mycorrhization in Quercus robur seedlings. BSc thesis. University of Padua, Italy. Advisor: Prof. L. Montecchio (Forest Pathology)
Past projects

2016-17 *Integrating Species Mixtures in Tree Growth Functions for Forest Development Models in Switzerland Swiss-SpeMixMod  (funded within the COST Action EuMixFor )

2012-15 *Advanced Multifunctional Forest Management In European Mountain Ranges ARANGE (Partnership in collaborative EU FP7 project)

2011-12 *Wood Energy Fuel Cycle Optimization in Swiss Forests FCO (PSI Villigen, Switzerland)

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