uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,attrs.Date,attrs.Issue,attrs.Journal,attrs.Keywords,attrs.Pages,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/7242780c-93ee-4a39-9505-d0bd2f67c62b,https://data.globalchange.gov/reference/7242780c-93ee-4a39-9505-d0bd2f67c62b,7242780c-93ee-4a39-9505-d0bd2f67c62b,"There is an ever-growing body of literature on forest management strategies for climate change adaptation; however, few frameworks have been presented for integrating these strategies with the real-world challenges of forest management. We have developed a structured approach for translating broad adaptation concepts into specific management actions and silvicultural practices for forest adaptation, as well as an associated set of resources to assist managers in using this approach. A variety of public, private, nongovernmental, and tribal natural resource managers are using this approach to develop projects that implement a diversity of adaptation actions while also meeting manager-identified goals. We describe how managers can integrate climate change information into management planning and activities and provide examples of real-world forest management projects that identify actions to help forests adapt to changing conditions.","Janowiak, Maria K.; Swanston, Christopher W.; Nagel, Linda M.; Brandt, Leslie A.; Butler, Patricia R.; Handler, Stephen D.; Shannon, P. Danielle; Iverson, Louis R.; Matthews, Stephen N.; Prasad, Anantha; Peters, Matthew P.",10.5849/jof.13-094,//,5,"Journal of Forestry","adaptation; case study; climate change; forest management",424-433,"A practical approach for translating climate change adaptation principles into forest management actions",112,2014,21238,7242780c-93ee-4a39-9505-d0bd2f67c62b,"Journal Article",/article/10.5849/jof.13-094
/reference/73108c16-22f0-4984-9b69-224513f8f8ca,https://data.globalchange.gov/reference/73108c16-22f0-4984-9b69-224513f8f8ca,73108c16-22f0-4984-9b69-224513f8f8ca,,"Jacobson, Peter C.; Stefan, Heinz G.; Pereira, Donald L.",10.1139/F10-115,2010/12/01,12,"Canadian Journal of Fisheries and Aquatic Sciences",,2002-2013,"Coldwater fish oxythermal habitat in Minnesota lakes: Influence of total phosphorus, July air temperature, and relative depth",67,2010,26580,73108c16-22f0-4984-9b69-224513f8f8ca,"Journal Article",/article/10.1139/F10-115
/reference/73754dea-be2e-4052-b0bc-46030f4114c1,https://data.globalchange.gov/reference/73754dea-be2e-4052-b0bc-46030f4114c1,73754dea-be2e-4052-b0bc-46030f4114c1,"Forest management faces an uncertain future with changing climates and disturbance regimes. Multi-aged forest management systems represent a promising approach for increasing resistance and resilience, thereby limiting major disruptions to timber production and other ecosystem services. Multi-aged stands inherently have greater resistance and resilience to disturbances because of the presence of several age classes and more potential pathways for post-disturbance management and recovery. The preponderance of research also indicates few differences in productivity between multi-aged and even-aged management strategies. These factors combined suggest that increased adoption of multi-aged management systems will lead to a reduction in long-term risks. We advocate a disturbance integration management strategy that encourages managers to emulate disturbance effects with management, anticipate disturbances in planning, integrate the management of residual stand structures into salvage operations and build variable treatment intervals or cutting cycles into management regimes.","O'Hara, Kevin L.; Ramage, Benjamin S.",10.1093/forestry/cpt012,,4,"Forestry: An International Journal of Forest Research",,401-410,"Silviculture in an uncertain world: utilizing multi-aged management systems to integrate disturbance†",86,2013,21176,73754dea-be2e-4052-b0bc-46030f4114c1,"Journal Article",/article/10.1093/forestry/cpt012
/reference/7418d1d5-0316-45cc-b9e0-292cce841cda,https://data.globalchange.gov/reference/7418d1d5-0316-45cc-b9e0-292cce841cda,7418d1d5-0316-45cc-b9e0-292cce841cda,,"Vinyeta, Kirsten; Kathy Lynn",,,,,,37,"Exploring the Role of Traditional Ecological Knowledge in Climate Change Initiatives",,2013,21326,7418d1d5-0316-45cc-b9e0-292cce841cda,Report,/report/exploring-role-traditional-ecological-knowledge-climate-change-initiatives
/reference/7529ed72-74b6-4f77-bf19-8aeeb1ab5ae0,https://data.globalchange.gov/reference/7529ed72-74b6-4f77-bf19-8aeeb1ab5ae0,7529ed72-74b6-4f77-bf19-8aeeb1ab5ae0,,"Smith, Alexander; Elizabeth Chuck; Ali Gostanian",,,,,,,"Swollen Midwest Rivers Bring Transportation to Standstill",,2015,21313,7529ed72-74b6-4f77-bf19-8aeeb1ab5ae0,"Web Page",/webpage/564bb107-cb8b-47ee-b792-fbf0e0647e45
/reference/75c746be-4e8b-48b8-97f9-4e9d31d5df21,https://data.globalchange.gov/reference/75c746be-4e8b-48b8-97f9-4e9d31d5df21,75c746be-4e8b-48b8-97f9-4e9d31d5df21,,EPA,,,,,,96,"Climate Change Indicators in the United States, 2016. 4th edition",,2016,20357,75c746be-4e8b-48b8-97f9-4e9d31d5df21,Report,/report/epa-430-r-16-004
/reference/75ca4c21-33fc-47ce-9830-6aa1884f0f17,https://data.globalchange.gov/reference/75ca4c21-33fc-47ce-9830-6aa1884f0f17,75ca4c21-33fc-47ce-9830-6aa1884f0f17,,"McDermid, J. L., S. K. Dickin, C. L. Winsborough, H. Switzman, S. Barr, J. A. Gleeson, G. Krantzberg, and P. A. Gray",,,,,,118,"State of climate change science in the Great Lakes basin: A focus on climatological, hydrological, and ecological effects",,2015,21284,75ca4c21-33fc-47ce-9830-6aa1884f0f17,Report,/report/state-climate-change-science-great-lakes-basin-focus-on-climatological-hydrological-ecological-effects
/reference/75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,https://data.globalchange.gov/reference/75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,,USGCRP,10.7930/J0J964J6,,,,,470,"Climate Science Special Report: Fourth National Climate Assessment, Volume I",,2017,21557,75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,Report,/report/climate-science-special-report
/reference/7609f0c9-640d-49a3-8009-60861b00e06a,https://data.globalchange.gov/reference/7609f0c9-640d-49a3-8009-60861b00e06a,7609f0c9-640d-49a3-8009-60861b00e06a,,"Carmichael, Wayne W.; Boyer, Gregory L.",10.1016/j.hal.2016.02.002,2016/04/01/,,"Harmful Algae","Harmful algal blooms; Cyanobacteria; Cyanotoxins; Drinking/recreational water guidelines; Human and animal health",194-212,"Health impacts from cyanobacteria harmful algae blooms: Implications for the North American Great Lakes",54,2016,26558,7609f0c9-640d-49a3-8009-60861b00e06a,"Journal Article",/article/10.1016/j.hal.2016.02.002
/reference/779b7448-2f94-49da-b0ed-1877293b4bee,https://data.globalchange.gov/reference/779b7448-2f94-49da-b0ed-1877293b4bee,779b7448-2f94-49da-b0ed-1877293b4bee,"Changes in tree growth rates can affect tree mortality and forest feedbacks to the global carbon cycle. As air temperature increases, evaporative demand also increases, increasing effective drought in forest ecosystems. Using a spatially comprehensive network of Douglas fir (Pseudotsuga menziesii) chronologies from 122 locations that represent distinct climate environments in the western United States, we show that increased temperature decreases growth via vapor pressure deficit (VPD) across all latitudes. Using an ensemble of global circulation models, we project an increase in both the mean VPD associated with the lowest growth extremes and the probability of exceeding these VPD values. As temperature continues to increase in future decades, we can expect deficit-related stress to increase and consequently Douglas fir growth to decrease throughout its US range.","Restaino, Christina M.; Peterson, David L.; Littell, Jeremy",10.1073/pnas.1602384113,"August 23, 2016",34,"Proceedings of the National Academy of Sciences of the United States of America",,9557-9562,"Increased water deficit decreases Douglas fir growth throughout western US forests",113,2016,21169,779b7448-2f94-49da-b0ed-1877293b4bee,"Journal Article",/article/10.1073/pnas.1602384113
/reference/781c4f1b-e0ab-4fcd-b424-0f346d9af00a,https://data.globalchange.gov/reference/781c4f1b-e0ab-4fcd-b424-0f346d9af00a,781c4f1b-e0ab-4fcd-b424-0f346d9af00a,,"Meerow, Sara; Newell, Joshua P.",10.1016/j.landurbplan.2016.10.005,2017/03/01/,,"Landscape and Urban Planning","Green infrastructure; Ecosystem services; Resilience; Detroit; Spatial planning; Urban greening",62-75,"Spatial planning for multifunctional green infrastructure: Growing resilience in Detroit",159,2017,26597,781c4f1b-e0ab-4fcd-b424-0f346d9af00a,"Journal Article",/article/10.1016/j.landurbplan.2016.10.005
/reference/78f2cbd8-d8f2-4d99-abbd-017bad4d52f1,https://data.globalchange.gov/reference/78f2cbd8-d8f2-4d99-abbd-017bad4d52f1,78f2cbd8-d8f2-4d99-abbd-017bad4d52f1,,,,"December 2012",,,,,"Effects of Climatic Variability and Change on Forest Ecosystems: A Comprehensive Science Synthesis for the U.S. Forest Sector. General Technical Report PNW-GTR-870",,2012,3307,78f2cbd8-d8f2-4d99-abbd-017bad4d52f1,"Edited Book",/report/usfs-pnw-gtr-870
/reference/793bb110-f9eb-43d2-a0bb-2898e426754d,https://data.globalchange.gov/reference/793bb110-f9eb-43d2-a0bb-2898e426754d,793bb110-f9eb-43d2-a0bb-2898e426754d,,"Allan, J. David; Margaret Palmer; N. Leroy Poff",,,,,,274-290,"Climate change and freshwater ecosystems",,2005,26623,793bb110-f9eb-43d2-a0bb-2898e426754d,"Book Section",/book/a8ea0339-22c2-48f7-ade1-0313028e645f
/reference/7ab64dd2-34e6-41b9-ae7d-af75fb48942f,https://data.globalchange.gov/reference/7ab64dd2-34e6-41b9-ae7d-af75fb48942f,7ab64dd2-34e6-41b9-ae7d-af75fb48942f,"Traditional ecological knowledge (TEK) has been proposed as a basis for enhanced understanding of ecological systems and their management. TEK also can contribute to targeted inventories of resources not included in standard mensuration. We discuss the results of a cooperative effort between the Great Lakes Indian Fish and Wildlife Commission (GLIFWC) and USDA Forest Service's Forest Inventory and Analysis Program (FIA). At the urging of member tribes, GLIFWC staff worked with tribal gatherers to document TEK regarding desired characteristics of birch bark for traditional uses and translated this into an inventory field guide. The guide was provided to FIA, which incorporated the methods into its field manual and trained inventory crews in implementation of the protocol. Birch bark data were collected during three field seasons from 2004 to 2006. Results show birch bark supply has declined. Lessons learned from this multiyear, multistage project provide a model for future targeted inventory efforts.","Emery, Marla R.; Wrobel, Alexandra; Hansen, Mark H.; Dockry, Michael; Moser, W. Keith; Stark, Kekek Jason; Gilbert, Jonathan H.",10.5849/jof.13-023,//,2,"Journal of Forestry","American Indians; Betula papyrifera; forest inventory and monitoring; nontimber forest products; traditional ecological knowledge",207-214,"Using traditional ecological knowledge as a basis for targeted forest inventories: Paper birch (Betula papyrifera) in the US Great Lakes region",112,2014,21237,7ab64dd2-34e6-41b9-ae7d-af75fb48942f,"Journal Article",/article/10.5849/jof.13-023
/reference/7ae7606e-7f35-456d-8ace-2456b176956b,https://data.globalchange.gov/reference/7ae7606e-7f35-456d-8ace-2456b176956b,7ae7606e-7f35-456d-8ace-2456b176956b,,"Pan, Z.
Andrade, D.
Segal, M.
Wimberley, J.
McKinney, N.
Takle, E.",10.1016/j.ecolmodel.2009.11.013,,5,"Ecological Modelling",,876-881,"Uncertainty in future soil carbon trends at a central US site under an ensemble of GCM scenario climates",221,2010,2414,7ae7606e-7f35-456d-8ace-2456b176956b,"Journal Article",/article/10.1016/j.ecolmodel.2009.11.013
/reference/7b27a46f-a250-442c-8fe1-1700b55adfd9,https://data.globalchange.gov/reference/7b27a46f-a250-442c-8fe1-1700b55adfd9,7b27a46f-a250-442c-8fe1-1700b55adfd9,,"Leatherberry, Earl C.; Moser, W. Keith; Perry, Charles; Woodall, Christopher; Jepsen, Edward; Pennington, Steve; Flickinger, Aron.",,,,,,84,"Iowa’s Forests 1999-2003 (Part A)",,2006,21271,7b27a46f-a250-442c-8fe1-1700b55adfd9,Report,/report/iowas-forests-1999-2003-part
/reference/7b490de7-7bcd-4e31-b512-9deaa3a5eba7,https://data.globalchange.gov/reference/7b490de7-7bcd-4e31-b512-9deaa3a5eba7,7b490de7-7bcd-4e31-b512-9deaa3a5eba7,,"Briley, Laura; Brown, Daniel; Kalafatis, Scott E.",10.1016/j.crm.2015.04.004,2015/01/01/,,"Climate Risk Management","Climate change adaptation; Boundary organization; Information usability; Decision support",41-49,"Overcoming barriers during the co-production of climate information for decision-making",9,2015,21130,7b490de7-7bcd-4e31-b512-9deaa3a5eba7,"Journal Article",/article/10.1016/j.crm.2015.04.004
/reference/7b8ff0c6-1f7b-4f8d-b899-a5b0427eccd3,https://data.globalchange.gov/reference/7b8ff0c6-1f7b-4f8d-b899-a5b0427eccd3,7b8ff0c6-1f7b-4f8d-b899-a5b0427eccd3,,"Magee, Madeline R.; McIntyre, Peter B.; Wu, Chin H.",10.1139/cjfas-2017-0260,2018/08/01,8,"Canadian Journal of Fisheries and Aquatic Sciences",,1303-1312,"Modeling oxythermal stress for cool-water fishes in lakes using a cumulative dosage approach",75,2017,26596,7b8ff0c6-1f7b-4f8d-b899-a5b0427eccd3,"Journal Article",/article/10.1139/cjfas-2017-0260
/reference/7badb8b5-90d3-4124-9b87-e79982c57c62,https://data.globalchange.gov/reference/7badb8b5-90d3-4124-9b87-e79982c57c62,7badb8b5-90d3-4124-9b87-e79982c57c62,,"Ozaukee Washington Land Trust,",,,,,,8,"Open spaces: 2016 annual report",,2016,21311,7badb8b5-90d3-4124-9b87-e79982c57c62,Report,/report/open-spaces-2016-annual-report
/reference/7cde5513-8e00-4645-80ec-d3c82b9f8984,https://data.globalchange.gov/reference/7cde5513-8e00-4645-80ec-d3c82b9f8984,7cde5513-8e00-4645-80ec-d3c82b9f8984,"Pollinators such as bees are essential to the functioning of terrestrial ecosystems. However, despite concerns about a global pollinator crisis, long-term data on the status of bee species are limited. We present a long-term study of relative rates of change for an entire regional bee fauna in the northeastern United States, based on >30,000 museum records representing 438 species. Over a 140-y period, aggregate native species richness weakly decreased, but richness declines were significant only for the genus Bombus. Of 187 native species analyzed individually, only three declined steeply, all of these in the genus Bombus. However, there were large shifts in community composition, as indicated by 56% of species showing significant changes in relative abundance over time. Traits associated with a declining relative abundance include small dietary and phenological breadth and large body size. In addition, species with lower latitudinal range boundaries are increasing in relative abundance, a finding that may represent a response to climate change. We show that despite marked increases in human population density and large changes in anthropogenic land use, aggregate native species richness declines were modest outside of the genus Bombus. At the same time, we find that certain ecological traits are associated with declines in relative abundance. These results should help target conservation efforts focused on maintaining native bee abundance and diversity and therefore the important ecosystems services that they provide.","Bartomeus, I.; Ascher, J. S.; Gibbs, J.; Danforth, B. N.; Wagner, D. L.; Hedtke, S. M.; Winfree, R.",10.1073/pnas.1218503110,"Mar 19",12,"Proceedings of the National Academy of Sciences of the United States of America","Adaptation, Physiological; Animals; Bees/ physiology; Biodiversity; Humans; Pollination; Population Dynamics; United States",4656-4660,"Historical changes in northeastern US bee pollinators related to shared ecological traits",110,2013,4106,7cde5513-8e00-4645-80ec-d3c82b9f8984,"Journal Article",/article/10.1073/pnas.1218503110
/reference/7e39f05f-d63f-473a-87c3-93d733ea178b,https://data.globalchange.gov/reference/7e39f05f-d63f-473a-87c3-93d733ea178b,7e39f05f-d63f-473a-87c3-93d733ea178b,,"Stults, M.; Petersen, S.; Bell, J.; Baule, W.; Nasser, E.; Gibbons, E.; Fougerat, M.",,,,,,146,"Climate Change Vulnerability Assessment and Adaptation Plan: 1854 Ceded Territory Including the Bois Forte, Fond du Lac, and Grand Portage Reservations",,2016,21276,7e39f05f-d63f-473a-87c3-93d733ea178b,Report,/report/climate-change-vulnerability-assessment-adaptation-plan-1854-ceded-territory-including-bois-forte-fond-du-lac-grand-portage-reservations
/reference/7eef3fed-521b-44d2-a567-628b92e45eaa,https://data.globalchange.gov/reference/7eef3fed-521b-44d2-a567-628b92e45eaa,7eef3fed-521b-44d2-a567-628b92e45eaa,,"Petersen, Brian; Hall, Kimberly R.; Kahl, Katherine; Doran, Patrick J.",10.1017/S1466046613000446,2013/12/01,4,"Environmental Practice",,377-392,"Research articles: In their own words: Perceptions of climate change adaptation from the Great Lakes region's resource management community",15,2013,21152,7eef3fed-521b-44d2-a567-628b92e45eaa,"Journal Article",/article/10.1017/S1466046613000446
/reference/7f78088e-7e0d-429b-ba67-eeaac737f8fa,https://data.globalchange.gov/reference/7f78088e-7e0d-429b-ba67-eeaac737f8fa,7f78088e-7e0d-429b-ba67-eeaac737f8fa,"Most Lyme disease cases in the Midwestern United States are reported in Minnesota and Wisconsin. In recent years, however, a widening geographic extent of Lyme disease has been noted with evidence of expansion eastwards into Michigan and neighboring states with historically low incidence rates.Methods.We collected confirmed and probable cases of Lyme disease from 2000 through 2014 from the Michigan Department of Health and Human Services, entering them in a geographic information system. We performed spatial focal cluster analyses to characterize Lyme disease expansion. We compared the distribution of human cases with recent Ixodes scapularis tick distribution studies.Results.Lyme disease cases in both the Upper and Lower Peninsulas of Michigan expanded more than 5-fold over the study period. Although increases were seen throughout the Upper Peninsula, the Lower Peninsula particularly expanded along the Indiana border north along the eastern shore of Lake Michigan. Human cases corresponded to a simultaneous expansion in established I scapularis tick populations.Conclusions.The geographic distribution of Lyme disease cases significantly expanded in Michigan between 2000 and 2014, particularly northward along the Lake Michigan shore. If such dynamic trends continue, Michigan—and possibly neighboring areas of Indiana, Ohio, and Ontario, Canada—can expect a continued increase in Lyme disease cases.","Lantos, Paul M.; Tsao, Jean; Nigrovic, Lise E.; Auwaerter, Paul G.; Fowler, Vance G.; Ruffin, Felicia; Foster, Erik; Hickling, Graham",10.1093/ofid/ofw269,,1,"Open Forum Infectious Diseases",,"Art. ofw269","Geographic expansion of Lyme disease in Michigan, 2000–2014",4,2017,21290,7f78088e-7e0d-429b-ba67-eeaac737f8fa,"Journal Article",/article/10.1093/ofid/ofw269
/reference/7fb36681-5694-4e74-93ec-65a153a17572,https://data.globalchange.gov/reference/7fb36681-5694-4e74-93ec-65a153a17572,7fb36681-5694-4e74-93ec-65a153a17572,,"Heltberg, Rasmus; Siegel, Paul Bennett; Jorgensen, Steen Lau",10.1016/j.gloenvcha.2008.11.003,2009/02/01/,1,"Global Environmental Change","Adaptation; Climate change; Social risk management; Vulnerability; No-regrets",89-99,"Addressing human vulnerability to climate change: Toward a ""no-regrets"" approach",19,2009,21139,7fb36681-5694-4e74-93ec-65a153a17572,"Journal Article",/article/10.1016/j.gloenvcha.2008.11.003