Reith, Esther, Gosling, Elisabeth, Knoke, Thomas, Paul, Carola (AFZ-DerWald 19/2021)

Literaturhinweise aus „Das Potenzial der Agroforstwirtschaft zur Wiederbewaldung“ von Esther Reith, Elizabeth Gosling, Thomas Knoke und Carola Paul (AFZ-DerWald 19/2021):

[1] Albrich, K.; Rammer, W.; Turner, M.; Ratajczak, Z.; Braziunas, K.; Hansen, W. et al. (2020): Simulating forest resilience: A review. Global ecology and biogeography a journal of macroecology, 29(12), 2082–2096.

[2] Arroyo-Rodríguez, V.; Fahrig, L.; Tabarelli, M.; Watling, J.; Tischendorf, L.; Benchimol, M. et al. (2020): Designing optimal human-modified landscapes for forest biodiversity conservation. Ecology letters, 23(9), 1404–1420.

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[4] Betts, M.; Phalan, B.; Wolf, C.; Baker, S.; Messier, C.; Puettmann, K. et al. (2021): Producing wood at least cost to biodiversity: integrating Triad and sharing-sparing approaches to inform forest landscape management. Biological reviews of the Cambridge Philosophical Society.

[5] Bundesministerium für Umwelt, Naturschutz und nukleare Sicherheit. (August 05, 2021): Bonn Challenge; Available from: https://www.bmu.de/WS5274.

[6] Current, D.; Lutz, E.; Scherr, S. (1995): Costs, benefits, and farmer adoption of agroforestry: Project experience in Central America and the Caribbean: World Bank Publications.

[7] Dudley, N.; Mansourian, S.; Vallauri, D. (2005): Forest landscape restoration in context. In: Mansourian, S., Vallauri, D., Dudley, N., eds., editor. Forest restoration in landscapes: Beyond Planting Trees. New York: Springer, 3–7.

[8] FAO (2019): New UN Decade on Ecosystem Restoration offers unparalleled opportunity for job creation, food security and addressing climate change. New York.

[9] Folke, C.; Biggs, R.; Norström, A.; Reyers, B.; Rockström, J. (2016): Social-ecological resilience and biosphere-based sustainability science. E&S, 21(3).

[10] Gosling, E.; Knoke, T.; Reith, E.; Reyes Cáceres, A.; Paul, C. (2021): Which Socio-economic Conditions Drive the Selection of Agroforestry at the Forest Frontier? Environmental management, 67(6), 1119–1136.

[11] Gosling, E.; Reith, E.; Knoke, T.; Paul, C. (2020): A goal programming approach to evaluate agroforestry systems in Eastern Panama. Journal of environmental management, 261, 110248.

[12] Grünewald, H.; Reeg, T. (2009): Überblick über den Stand der Forschung zu Agroforstsystemen in Deutschland. In: Bemmann A, Murach D, Spiecker H, Reeg T, Konold W, editors. Anbau und Nutzung von Bäumen auf landwirtschaftlichen Flächen. Weinheim: Wiley-VCH, 231–239.

[13] Hodbod, J.; Barreteau, O.; Allen, C.; Magda, D. (2016): Managing adaptively for multifunctionality in agricultural systems. Journal of environmental management, 183(Pt 2), 379–388.

[14] Holl, K.; Brancalion, P. (2020): Tree planting is not a simple solution. Science (New York, N.Y.), 368(6491), 580–581.

[15] IUCN. (Februar 01, 2019): Bonn Challenge; Available from: www.bonnchallenge.org.

[16] Jose, S. (2009): Agroforestry for ecosystem services and environmental benefits: an overview. Agroforest Syst, 76(1), 1–10.

[17] Knoke, T.; Román-Cuesta, R.; Weber, M.; Haber, W. (2012): How can climate policy benefit from comprehensive land‐use approaches? Frontiers in Ecology and the Environment, 10(8), 438–445.

[18] Li, T.; Dong, Y.; Liu, Z. (2020): A review of social-ecological system resilience: Mechanism, assessment and management. The Science of the total environment, 723, 138113.

[19] Mansourian, S. (2005): Overview of forest restoration strategies and terms. In: Mansourian, S., Vallauri, D., Dudley, N., eds., editor. Forest restoration in landscapes: Beyond Planting Trees. New York: Springer, 8–13.

[20] Minang, P.; van Noordwijk, M.; Freeman, O.; Mbow, C.; Leeuw, J. de; Catacutan, D. (2015): Climate-smart landscapes: multifunctionality in practice: Multifunctionality in Practice: World Agroforestry Centre (ICRAF).

[21] Nair, P.; Garrity, D. (Hrsg.) (2012): Agroforestry – The Future of Global Land Use. Dordrecht: Springer Netherlands.

[22] Nikinmaa, L.; Lindner, M.; Cantarello, E.; Jump, A.; Seidl, R.; Winkel, G. et al. (2020): Reviewing the use of resilience concepts in forest sciences. Curr Forestry Rep, 1–20.

[23] Paul, C.; Knoke, T. (2015): Between land sharing and land sparing – what role remains for forest management and conservation? Int. Forest. Rev., 17(2), 210–230.

[24] Phalan, B. (2018): What Have We Learned from the Land Sparing-sharing Model? Sustainability, 10(6), 1760.

[25] Reed, J.; van Vianen, J.; Foli, S.; Clendenning, J.; Yang, K.; MacDonald, M. et al. (2017): Trees for life: The ecosystem service contribution of trees to food production and livelihoods in the tropics. Forest Policy and Economics, 84, 62–71.

[26] Reith, E.; Gosling, E.; Knoke, T.; Paul, C. (2020): How Much Agroforestry Is Needed to Achieve Multifunctional Landscapes at the Forest Frontier?—Coupling Expert Opinion with Robust Goal Programming. Sustainability, 12(15), 6077.

[27] Sanchez, P. (1995): Science in agroforestry. Agroforest Syst, 30(1-2), 5–55.

[28] Somarriba, E., Beer, J., Alegre-Orihuela, Andrade, H.J., Cerda, R., DeClerck, F., Detlefsen, G., Escalante, M., Giraldo, L.A., Ibrahim, M., Krischnamurthy, L., Mena-Mosquera, Victor, E, Mora-Degado, J.R., Orozco, L., Scheelje, M., Campos, J.J. (2012): Mainstreaming Agroforestry in Latin America. In: Nair PR, Garrity D, editors. Agroforestry – The Future of Global Land Use. Dordrecht: Springer Netherlands, 429–473.

[29] Vereinte Nationen. (August 05, 2021): Ziele für nachhaltige Entwicklung; Available from: https://unric.org/de/17ziele/.

[30] Wanger, T.; DeClerck, F.; Garibaldi, L.; Ghazoul, J.; Kleijn, D.; Klein, A.-M. et al. (2020): Integrating agroecological production in a robust post-2020 Global Biodiversity Framework. Nature ecology & evolution, 4(9), 1150–1152.