Department of Forest Resources
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Item The 1932 Gopher Peavey: the annual publication of the Forestry Club(University of Minnesota. Forestry Club, 1932) University of Minnesota. Forestry ClubItem The 1933 Gopher Peavey: the annual publication of the Forestry Club(University of Minnesota. Forestry Club, 1933) University of Minnesota. Forestry ClubItem The 1934 Gopher Peavey: the annual publication of the Forestry Club(University of Minnesota. Forestry Club, 1934) University of Minnesota. Forestry ClubItem The 1935 Gopher Peavey: annual publication of the Forestry Club(University of Minnesota. Forestry Club, 1935) University of Minnesota. Forestry ClubItem The 1936 Gopher Peavey(University of Minnesota. Forestry Club, 1936) University of Minnesota. Forestry ClubItem The 1937 Gopher Peavey(University of Minnesota. Forestry Club, 1937) University of Minnesota. Forestry ClubItem The 1938 Gopher Peavey(University of Minnesota. Forestry Club, 1938) University of Minnesota. Forestry ClubItem The 1939 Gopher Peavey(University of Minnesota. Forestry Club, 1939) University of Minnesota. Forestry ClubItem The 1941 Gopher Peavey: annual publication of the Forestry Club, University of Minnesota(University of Minnesota. Forestry Club, 1941) University of Minnesota. Forestry ClubItem 1963 Twin Cities Area Christmas Tree Sales(St. Paul, Minn. : School of Forestry, University of Minnesota, 1964-07-15) Skok, Richard A.; Smith, Marvin E.; Miles, William R.Item 1964 Retail Christmas Tree Sales in the Twin Cities Area(St. Paul, Minn. : School of Forestry, University of Minnesota, 1965-07-15) Ellefson, Paul V.; Skok, Richard A.; Miles, William R.Item The 1965 Twin Cities Retail Christmas Tree Market(St. Paul, Minn. : School of Forestry, University of Minnesota, 1966-10-15) Anderson, Henry P.; Skok, Richard A.; Miles, William R.Item 2010 Outlook for Forest Biomass Availability in Minnesota: Physical, Environmental, Economic, and Social Availability(University of Minnesota, 2010-10) Becker, Dennis R.; Klapperich, Jonathan J.; Domke, Grant M.; Kilgore, Michael A.; D’Amato, Anthony W.; Current, Dean A.; Ek, Alan R.The growing interest and investment in forest biomass for energy production in Minnesota has created the need for accurate estimates of supply. This report estimates the total physical supply of residual forest biomass in Minnesota using a spreadsheet based Forest Age Class Change Simulator (FACCS) to model changes in forest growth and productivity at different harvest target levels, biomass retention levels, forest type, ownership, and biomass attribute (e.g., bolewood, limbs and tops). The findings are presented statewide and by region for different harvest levels and forest management scenarios. Total economic and social availability are further modeled for private woodland owners to determine the probability of their willingness to sell biomass in conjunction with ongoing forest management activities. The results provide a transparent analysis of biomass availability that illuminates policy dialogue and planning regarding the incremental increases in demand for forest biomass and the level of production that is ecologically sustainable within an area.Item A 35mm Aerial Photography System for Forest and Range Resource Analysis(St. Paul, Minn. : School of Forestry, University of Minnesota, 1973-01-15) Meyer, M.Item A.C.E., Allowable Cut Evaluation : a microcomputer program for determination of allowable cuts : user's manual.(University of Minnesota, 1986-01) Rose, DietmarItem Acclimation of photosynthetic temperature optima of temperate and boreal tree species in response to experimental forest warming(Wiley, 2015) Sendall, Kerrie M; Reich, Peter B; Zhao, Changming; Jihua, Hou; Wei, Xiaorong; Stefanski, Artur; Rice, Karen; Rich, Roy L; Montgomery, Rebecca A.Rising temperatures caused by climate change could negatively alter plant ecosystems if temperatures exceed optimal temperatures for carbon gain. Such changes may threaten temperature-sensitive species, causing local extinctions and range migrations. This study examined the optimal temperature of net photosynthesis (Topt) of two boreal and four temperate deciduous tree species grown in the field in northern Minnesota, United States under two contrasting temperature regimes. We hypothesized that Topt would be higher in temperate than co-occurring boreal species, with temperate species exhibiting greater plasticity in Topt, resulting in better acclimation to elevated temperatures. The chamberless experiment, located at two sites in both open and understory conditions, continuously warmed plants and soils during three growing seasons. Results show a modest, but significant shift in Topt of 1.1 ± 0.21 °C on average for plants subjected to a mean 2.9 ± 0.01 °C warming during midday hours in summer, and shifts with warming were unrelated to species native ranges. The 1.1 °C shift in Topt with 2.9 °C warming might be interpreted as suggesting limited capacity to shift temperature response functions to better match changes in temperature. However, Topt of warmed plants was as well-matched with prior midday temperatures as Topt of plants in the ambient treatment, and Topt in both treatments was at a level where realized photosynthesis was within 90–95% of maximum. These results suggest that seedlings of all species were close to optimizing photosynthetic temperature responses, and equally so in both temperature treatments. Our study suggests that temperate and boreal species have considerable capacity to match their photosynthetic temperature response functions to prevailing growing season temperatures that occur today and to those that will likely occur in the coming decades under climate change.Item Accumulation and Snowmelt on North-South(St. Paul, Minn. : School of Forestry, University of Minnesota, 1972-01-15) Clausen, John C.; Mace, Arnett C. Jr.Item ACES Allowable Cut Evaluation Simulator : a microcomputer program for determination of allowable cuts for a MacIntosh computer : version 1.0 user's manual.(University of Minnesota, 1989-05) Rose, Dietmar; Johnson, Dave; Pelkki, Matthew H.Item ACES, version 5.3 : an allowable cut simulation microcomputer program : user's manual.(University of Minnesota, 1994-07) Rose, DietmarItem ACES, version 6.6 : a revised allowable cut simulation microcomputer program : user's manual.(University of Minnesota, 1995-04) Rose, Dietmar