• Drivers of future alien species impacts: an expert-based assessment 

      Essl, F.; Lenzner, B.; Bacher, S.; Bailey, S.; Capinha, C.; Daehler, C.; Dullinger, S.; Genovesi, P.; Hui, C.; Hulme, P.E.; Jeschke, J.M.; Katsanevakis, S.; Kühn, I.; Leung, B.; Liebhold, A.; Liu, C.; MacIsaac, H.J.; Meyerson, L.A.; Nuñez, M.A.; Pauchard, A.; Pyšek, P.; Rabitsch, W.; Richardson, D.M.; Roy, H.E.; Ruiz, G.M.; Russell, J.C.; Sanders, N.J.; Sax, D.F.; Scalera, R.; Seebens, H.; Springborn, M.; Turbelin, A.; van Kleunen, M.; von Holle, B.; Winter, M.; Zenni, R.D.; Mattsson, B.J.; Roura-Pascual, N. (2020)
      Understanding the likely future impacts of biological invasions is crucial yet highly challenging given the multiple relevant environmental, socio-economic and societal contexts and drivers. In the absence of quantitative ...
    • Non-native and native organisms moving into high elevation and high latitude ecosystems in an era of climate change: new challenges for ecology and conservation 

      Pauchard, A.; Milbau, A.; Albihn, A.; Alexander, J.; Burgess, T.; Daehler, C.; Englund, G.; Essl, F.; Evengard, B.; Greenwood, G.B.; Haider, S.; Lenoir, J.; McDougall, K.; Muths, E.; Nunez, M.A.; Olofsson, J.; Pellissier, L.; Rabitsch, W.; Rew, L.J.; Robertson, M.; Sanders, N.; Kueffer, C. (Springer, 2016)
      Cold environments at high elevation and high latitude are often viewed as resistant to biological invasions. However, climate warming, land use change and associated increased connectivity all increase the risk of biological ...
    • Weed risk assessments are an effective component of invasion risk management 

      Gordon, D.R.; Flory, S.L.; Lieurance, D.; Hulme, P.E.; Buddenhagen, C.; Caton, B.; Champion, P.D.; Culley, T.M.; Daehler, C.; Essl, F.; Hill, J.E.; Keller, R.P.; Kohl, L.; Koop, A.L.; Kumschick, S.; Lodge, D.M.; Mack, R.N.; Meyerson, L.A.; Pallipparambil, G.R.; Panetta, F.D.; Porter, R.; Pysek, P.; Quinn, L.D.; Richardson, D.M.; Simberloff, D.; Vila, M. (Wees Science Society of America(WSSA), 2016)