Abstract
Native and agricultural forests in the Northern Plains provide ecosystem services that benefit human society—diversified agricultural systems, forest-based products, and rural vitality. The impacts of recent trends in temperature and disturbances are impairing the delivery of these services. Climate change projections identify future stressors of greater impact, placing at risk crops, soils, livestock, biodiversity, and agricultural and forest-based livelihoods. While these native and agricultural forests are also a viable option for providing mitigation and adaptation services to the Northern Plains, they themselves must be managed in terms of climate change risks. Because agricultural forests are planted systems, the primary approaches for reducing risks are through design, plant selection and management. For native forests, management, natural disturbances, and collaboration of multiple ownerships will be needed to address key risks.
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References
Colorado State Forest Service (CSFS) (2010) Colorado statewide forest resource assessment. Colorado State Forest Service, Fort Collins http://csfs.colostate.edu/forest-action-plan/. Accessed 16 August 2017
Department of Natural Resources and Conservation (DNRC) (2010) Montana statewide forest resource strategy. http://dnrc.mt.gov/divisions/forestry/docs/assistance/saresponsestrategy2010.pdf. Accessed 27 July 2017
Ansell C, Gash A (2008) Collaborative governance in theory and practice. J Public Adm Res Theory 18(4):543–571
Ballesteros-Possu W, Brandle JR, Schoeneberger MM (2017) Potential of windbreak trees to reduce carbon emissions by agricultural operations in the US. Forests 8(5):138 http://www.mdpi.com/1999-4907/8/5/138/htm. Accessed 18 Aug 2017
Becker DR, McCaffrey SM, Abbas D et al (2011) Conventional wisdoms of woody biomass utilization on federal public lands. J For 109(4):208–218
Bentz BJ, Regniere J, Fettig CJ et al (2010) Climate change and bark beetles of the western United States and Canada: direct and indirect effects. BioScience 60:602–613
Briggs JS, Fornwalt PJ, Feinstein JA (2017) Short-term ecological consequences of collaborative restoration treatments in ponderosa pine forests of Colorado. For. Ecol. Manag 395:69–80
Briske DD, Joyce LA, Polley HW et al (2015) Climate-change adaptation on rangelands: linking regional exposure with diverse adaptive capacity. Front Ecol Environ 13(5):249–256
Butler BJ, Hewes JH, Dickinson BJ et al (2016) USDA forest service national woodland owner survey: national, regional, and state statistics for family forest and woodland ownerships with 10+ acres, 2011-2013. Res. Bull. NRS-99. USDA Forest Service, Northern Research Station, Newtown
Cheng AS (2006) Build it and they will come? Mandating collaboration in public lands planning and management. Nat. Resour. J. 46:841–858
Cheng AS, Sturtevant VE (2012) A framework for assessing collaborative capacity in community-based public forest management. Environ Manag 49(3):675–689
Cheng AS, Gerlak AK, Dale L, Mattor KM (2015) Examining adaptability of collaborative governance in public ecosystem management: insights from the Front Range Roundtable, Colorado, USA. Ecol Soc 20(1):35. https://doi.org/10.5751/ES-07187-200135
Daniels SE, Walker GB (2001) Working through environmental conflict: the collaborative learning approach. Praeger, Westport
Dawson IK, Vinceti B, Weber JC et al (2011) Climate change and tree genetic resource management: maintaining and enhancing the productivity and value of smallholder tropical agroforestry landscapes. Agrofor Syst 81(1):67–78
Donovan VM, Wonkka CL, Twidwell D (2017) Surging wildfire activity in a grassland biome. Geophys Res Lett 44. https://doi.org/10.1002/2017gl072901
Dosskey MG et al (2017) Reducing threats and enhancing resiliency. In: Schoeneberger MM, Bentrup G, Patel-Weynand T (eds) Agroforestry: enhancing resiliency in U.S. agricultural landscapes under changing conditions. Gen Tech rep WO-96. USDA Forest Service, Washington DC, pp XX-XX
Dumroese RK, Williams MI, Stanturf JA, St. Clair JB (2015) Considerations for restoring temperate forests of tomorrow: forest restoration, assisted migration, and bioengineering. New For 46:947–964
Hansen AJ, Phillips LB (2015) Which tree species and biome types are most vulnerable to climate change in the US Northern Rocky Mountains? For Ecol Manag 338:68–83
Harris JL (2014) Forest insect and disease conditions in the Rocky Mountain Region. R2–14-RO-32. USDA Forest Service, State, Private Forests, Tribal Relations & Forest Health Protection, Denver
Hayes C (ed) (2015) Montana forest insect and disease conditions and program highlights—2014. Numbered Report R1–15-11. USDA Forest Service, Northern Region, Forest Health Protection, Missoula
Hessburg PF, Churchill DJ, Larson AJ et al (2015) Restoring fire-prone Inland Pacific landscapes: seven core principles. Landsc Ecol 30:1805–1835
Hu J, Moore DJP, Burns SP, Monson RK (2010) Longer growing seasons lead to less carbon sequestration by a subalpine forest. Glob Chang Biol 16:771–783
Huber-Stearns H, Moseley C, Goulet N (2016) Local capacity for integrated forest and wildfire management. Ecosystem Workforce Program Working Paper Number 70. University of Oregon, Eugene
Keane RE, Mahalovich MF, Bollenbacher BL et al (in press) Climate change effects on forest vegetation in the Northern Rocky Mountains. Chapter 6. In: Halofsky J, Peterson DL, Dante-Wood SK et al (eds) Climate change vulnerability and adaptation in the Northern Rocky Mountains. Gen Tech Rep RMRS-GTR-xxx. USDA Forest Service, Rocky Mountain Research Station, Fort Collins
Keegan CE, Morgan TA, Hearst AL, Fiedler CE (2004) Impacts of the 2000 wildfires on Montana’s forest industry employment. For Prod J 54(7/8):26–28
Keegan CE, Sorenson CB, Morgan TA et al (2011) Impact of the great recession and housing collapse on the forest products industry in the western United States. For Prod J 61(8):625–634
King DA, Bachelet DM, Symstad AJ (2013) Climate change and fire effects on a prairie-woodland ecotone: projecting species range shifts with a dynamic global vegetation model. Ecol. Evol. 3:5076–5097
Kolb P (2013) Climatic influences on forests across Montana—strategies for conservation and functional retention. Misc MSU Ext For Pub http://www.msuextension.org/forestry/publications.htm. Accessed 16 Aug 2017
Kolb P (2016) Montana national forests: burning an empire. Evergreen, Spring 2016. pp 7–12 http://www.evergreenmagazine.com/peter-kolb-climate-change-shifting-paradigms/
Kotchman, LA (2010) North Dakota statewide assessment of forest resources and forest resource strategy. NDSU-North Dakota Forest Service https://www.ag.ndsu.edu/ndfs/documents/ndstate-assess-strat-final-approv9-15-10.pdf. Accessed 25 July 2017
Krosby M, Tewksbury J, Haddad NM et al (2010) Ecological connectivity for a changing climate. Conserv Biol 24(6):1686–1689
Kunkel KE, Stevens LE, Stevens SE et al (2013) Regional climate trends and scenarios for the U.S. National Climate Assessment. Part 4. Climate of the U.S. Great Plains. NOAA Tech Rep NESDIS 142–4. National Oceanic and Atmospheric Administration, National Environmental Satellite Data Information Service, Silver Spring
Liu Z, Wimberly MC, Lamsal A et al (2015) Climate change and wildfire risk in an expanding wildland–urban interface: a case study from the Colorado Front Range corridor. Landsc Ecol 30:1943–1957
Loehman RA, Keane RE, Holsinger LM, Wu Z (2016) Interactions of landscape disturbances and climate change dictate ecological pattern and process: spatial modeling of wildfire, insect, and disease dynamics under future climates. Landsc Ecol. https://doi.org/10.1007/s10980-016-0414-6
MacFarland K et al (2017) Human dimensions of agroforestry. In: Schoeneberger MM, Bentrup G, Patel-Weynand T (eds) Agroforestry: enhancing resiliency in U.S. agricultural landscapes under changing conditions. Gen Tech Rep WO-96. USDA, Forest Service, Washington DC, pp XX-XX
Malmsheimer RW, Heffernan P, Brink S et al (2009) Forest management solutions for mitigating climate change in the United States. Society of American Foresters, Bethesda, p 137
Mathys AS, Coops NC, Waring RH (2016) An ecoregion assessment of projected tree species vulnerabilities in western North America through the 21st century. Glob Change Biol. https://doi.org/10.1111/gcb.13440
McKay KL (1994) Trails of the past: historical overview of the Flathead National Forest, Montana, 1800–1960. http://www.foresthistory.org/ASPNET/Publications/region/1/flathead/index.htm. Accessed 25 July 2017
Millar CI, Stephenson NL, Stephens SL (2007) Climate change and forests of the future: managing in the face of uncertainty. Ecol Appl 17:2145–2151
Millar CI, Skog KE, McKinley DC et al (2012) Adaptation and mitigation. In: Vose JM, Peterson DL, Patel-Weynand T (eds) Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S. forest sector. Gen. Tech. Rep. PNW-GTR-870. USDA Forest Service, Pacific Northwest Research Station, Portland
Nebraska Forest Service (2015) Nebraska statewide forest action plan. Nebraska Forest Service. http://nfs.unl.edu/statewide-forest-action-plan. Accessed 25 July 2017
Negrón JF, Fettig CJ (2014) Mountain pine beetle, a major disturbance agent in US western coniferous forests: a synthesis of the state of knowledge. For Sci 60(3):409–413
Notaro M, Mauss A, Williams JW (2012) Projected vegetation changes for the American Southwest: combined dynamic modeling and bioclimatic-envelope approach. Ecol Appl 22:1365–1388
Oppenheimer M, Campos M, Warren R, et al (2014) Emergent risks and key vulnerabilities. In: Field CB, Barros VR, Dokken DJ et al (eds) Climate change 2014: impacts, adaptation, and vulnerability. Part a: global and sectoral aspects. Contribution of working group II to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, pp 1039–1099
Pierce DW, Cayan DR, Thrasher BL (2014) Statistical downscaling using localized constructed analogs (LOCA). J Hydrometeorol 15:2558–2585
Pierce DW, Cayan DR, Maurer EP et al (2015) Improved bias correction techniques for hydrological simulations of climate change. J Hydrometeorol 16:2421–2442
Possu WB, Brandle JR, Domke GM et al (2016) Estimating carbon storage in windbreak trees on US agricultural lands. Agrofor Syst. https://doi.org/10.1007/s10457-016-9896-0
Schoeneberger MM (2009) Agroforestry: working trees for sequestering carbon on agricultural lands. Agrofor Syst 75(1):27–37
Schoeneberger MM, Lister A, Rasmussen S (2016) Chapter 3. Agricultural forests. In: Robertson G, Mason A (eds) Assessing the sustainability of agricultural and urban forests in the United States. FS-1067. USDA Forest Service, Washington DC, pp 21–35
Schoeneberger MM, Bentrup G, Patel-Weynand T (eds) (2017a) Agroforestry: enhancing resiliency in U.S. agricultural landscapes under changing conditions. Gen Tech Rep WO-96. USDA Forest Service, Washington DC
Schoeneberger MM et al (2017b) Chapter 3. Greenhouse gas mitigation and accounting. In: Schoeneberger MM, Bentrup G, Patel-Weynand T (eds) Agroforestry: enhancing resiliency in U.S. agricultural landscapes under changing conditions. Gen Tech Rep WO-96. USDA Forest Service, Washington DC, pp XX-XX
South Dakota Department of Agriculture (SDDA) (2010) South Dakota forest resource strategy. South Dakota Department of Agriculture. https://sdda.sd.gov/conservation-forestry/assessment-of-forest-resources/PDF/rsi2139-sd-forest-strategy.pdf. Accessed 25 July 2017
Stephens SL, McIver JD, Boerner RJ et al (2012) The effects of forest fuel-reduction treatments in the United States. BioSci 62:549–560
United States Department of Agriculture Animal Plant Health Inspection Service (USDA APHIS) (2017) Cooperative emerald ash borer project. EAB detections. On-line map. https://www.aphis.usda.gov/plant_health/plant_pest_info/emerald_ash_b/downloads/NewCountyDetectionMap2017.pdf. Accessed 25 July 2017
United States Department of Agriculture (USDA) (2015) Agroforestry: USDA reports to America, fiscal years 2011–2012. USDA, Washington DC
United States Department of Agriculture (USDA) (2016) U.S. Agriculture and Forestry Greenhouse Gas Inventory 1990–2013. Tech Bull No 1943. USDA Office of the Chief Economist, Climate Change Program Office, Washington DC
Vaughan D, Mackes K (2015) Characteristics of Colorado forestry contractors and their role in current forest health issues. For Prod 65(5/6):217–225
Vose JM, Peterson DL, Patel-Weynand T (eds) (2012) Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S. forest sector. Gen Tech Rep PNW-GTR-870. USDA Forest Service, Pacific Northwest Research Station, Portland
Vose JM, Clark JS, Luce CH, Patel-Weynand T (eds) (2016) Effects of drought on forests and rangelands in the United States: a comprehensive science synthesis. Gen Tech Rep WO-93b. USDA Forest Service, Washington DC
Weber EP (2009) Explaining institutional change in tough cases of collaboration: “ideas” in the Blackfoot Watershed. Public Adm Rev 69(2):314–327
Westerling A, Brown T, Schoennagel T et al (2014) Briefing: climate and wildfire in western U.S. forests. In: Sample VA, Bixler RP (eds) Forest conservation and management in the Anthropocene: conference proceedings. Proceedings RMRS-P-71. USDA Forest Service, Rocky Mountain Research Station, Fort Collins, pp 81–102
Williams GW (2005) The U.S. Department of Agriculture, Forest Service: first century. USDA Forest Service, Office of Communications, Washington, DC http://www.foresthistory.org/ASPNET/Publications/first_century/. Accessed 26 June 2017
Williams MI, Dumroese RK (2013) Preparing for climate change: forestry and assisted migration. J For 111(4):287–297
Wyoming State Forestry Division (WSFD) (2010) Wyoming statewide forest resource strategy. http://slf-web.state.wy.us/forestrydivision/Resource_Strategy.pdf. Accessed 25 July 2017
Funding
Kolb has received research grants from NIFA (Renewable Resources Extension Act Funds) and AFRI-CAP grant (Bioenergy Alliance Network of the Rockies—a 5-year grant examining the use of forest residuals/beetle kill for energy sources) and is on the Advisory Board for these organizations: Montana Natural Resources Youth Camp 501c.3, Montana Forest Owners Association 501c.6, and Montana Forest Council 501c.6.
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This article is part of a Special Issue on ‘Vulnerability Assessment of US Agriculture and Forests developed by the USDA Climate Hubs’ edited by Jerry L. Hatfield, Rachel Steele, Beatrice van Horne, and William Gould.
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Joyce, L.A., Bentrup, G., Cheng, A.S. et al. Native and agricultural forests at risk to a changing climate in the Northern Plains. Climatic Change 146, 59–74 (2018). https://doi.org/10.1007/s10584-017-2070-5
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DOI: https://doi.org/10.1007/s10584-017-2070-5