uri,href,identifier,attrs.Author,attrs.DOI,attrs.ISSN,attrs.Issue,attrs.Journal,attrs.Keywords,attrs.Pages,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/a9e10150-ec9c-47b9-838f-655a4b838703,https://data.globalchange.gov/reference/a9e10150-ec9c-47b9-838f-655a4b838703,a9e10150-ec9c-47b9-838f-655a4b838703,"Hanrahan, Janel L.; Kravtsov, Sergey V.; Roebber, Paul J.",10.1029/2009GL041707,1944-8007,1,"Geophysical Research Letters","Great Lakes; water levels; climate variability; 1616 Climate variability; 1630 Impacts of global change; 1807 Climate impacts; 1803 Anthropogenic effects; 9345 Geographic Location: Large bodies of water (e.g., lakes and inland seas)",L01701,"Connecting past and present climate variability to the water levels of Lakes Michigan and Huron",37,2010,21155,a9e10150-ec9c-47b9-838f-655a4b838703,"Journal Article",/article/10.1029/2009GL041707
/reference/aa980625-eab7-45f5-9bcb-d8dbbd36e6c7,https://data.globalchange.gov/reference/aa980625-eab7-45f5-9bcb-d8dbbd36e6c7,aa980625-eab7-45f5-9bcb-d8dbbd36e6c7,"Criss, Robert E.; William E. Winston",10.1289/ehp.12042,,12,"Environmental Health Perspectives",,A516-A516,"Public safety and faulty flood statistics",116,2008,26564,aa980625-eab7-45f5-9bcb-d8dbbd36e6c7,"Journal Article",/article/10.1289/ehp.12042
/reference/ab5a35f8-2e28-4dd1-ba18-ded6a6d4c710,https://data.globalchange.gov/reference/ab5a35f8-2e28-4dd1-ba18-ded6a6d4c710,ab5a35f8-2e28-4dd1-ba18-ded6a6d4c710,"Karen R. Ryberg; Wei Lin; Aldo V. Vecchia",10.1061/(ASCE)HE.1943-5584.0000775,,1,"Journal of Hydrologic Engineering",,148-158,"Impact of climate variability on runoff in the north-central United States",19,2014,20935,ab5a35f8-2e28-4dd1-ba18-ded6a6d4c710,"Journal Article",/article/10.1061/(ASCE)HE.1943-5584.0000775
/reference/aba9434d-2e5d-4ac7-b3fa-d5cc4eb43b58,https://data.globalchange.gov/reference/aba9434d-2e5d-4ac7-b3fa-d5cc4eb43b58,aba9434d-2e5d-4ac7-b3fa-d5cc4eb43b58,"Barclay, Pamela; Bastoni, Cara; Eisenhauer, David; Hassan, Masooma; Lopez, Melody; Mekias, Leila; Ramachandran, Sundeep; Stock, Ryan",,,,,,,"Climate Change Adaptation in Great Lakes Cities",,2013,25926,aba9434d-2e5d-4ac7-b3fa-d5cc4eb43b58,Thesis,/generic/485e261a-5aae-45b5-a826-5b7f912b1fc5
/reference/abc62f90-c586-4ed8-bb13-4f387a2eb9b0,https://data.globalchange.gov/reference/abc62f90-c586-4ed8-bb13-4f387a2eb9b0,abc62f90-c586-4ed8-bb13-4f387a2eb9b0,"Zhong, Yafang; Notaro, Michael; Vavrus, Stephen J.; Foster, Michael J.",10.1002/lno.10331,1939-5590,5,"Limnology and Oceanography",,1762-1786,"Recent accelerated warming of the Laurentian Great Lakes: Physical drivers",61,2016,21110,abc62f90-c586-4ed8-bb13-4f387a2eb9b0,"Journal Article",/article/10.1002/lno.10331
/reference/ac04db1a-16ad-4ca0-91c1-b08a981eec1c,https://data.globalchange.gov/reference/ac04db1a-16ad-4ca0-91c1-b08a981eec1c,ac04db1a-16ad-4ca0-91c1-b08a981eec1c,"Chicago Metropolitan Agency for Planning (CMAP),",,,,,,,"Climate Adaptation Guidebook for Municipalities in the Chicago Region",,2013,21298,ac04db1a-16ad-4ca0-91c1-b08a981eec1c,Report,/report/climate-adaptation-guidebook-municipalities-chicago-region
/reference/ace4e686-cb47-4b0e-ab8f-3f57bc6e7795,https://data.globalchange.gov/reference/ace4e686-cb47-4b0e-ab8f-3f57bc6e7795,ace4e686-cb47-4b0e-ab8f-3f57bc6e7795,"Cadotte, Marc W.; Dinnage, Russell; Tilman, David",10.1890/11-0426.1,,sp8,Ecology,,S223-S233,"Phylogenetic diversity promotes ecosystem stability",93,2012,25925,ace4e686-cb47-4b0e-ab8f-3f57bc6e7795,"Journal Article",/article/10.1890/11-0426.1
/reference/ad1de932-cd23-42a8-8c6f-e0039db9b17d,https://data.globalchange.gov/reference/ad1de932-cd23-42a8-8c6f-e0039db9b17d,ad1de932-cd23-42a8-8c6f-e0039db9b17d,"Dey, K. C.; A. Mishra; M. Chowdhury",10.1109/TITS.2014.2371455,1524-9050,3,"IEEE Transactions on Intelligent Transportation Systems","innovation management; intelligent transportation systems; mobile computing; roads; socio-economic effects; weather forecasting; ITS innovations; ITS-based initiatives; RWIS; adverse weather conditions; adverse weather impacts; governmental weather services; mobile road weather data collection; proactive maintenance activities; reactive maintenance activities; road mobility; road weather events; road weather forecasting techniques; road weather information system; route-specific road weather conditions; society economic output; surface transportation system; system-wide deployments; Computer crashes; Maintenance engineering; Snow; Climate change; connected vehicles; extreme weather events; intelligent transportation systems (ITS); road weather; winter road maintenance",1107-1119,"Potential of intelligent transportation systems in mitigating adverse weather impacts on road mobility: A review",16,2015,21183,ad1de932-cd23-42a8-8c6f-e0039db9b17d,"Journal Article",/article/10.1109/TITS.2014.2371455
/reference/ad473f6f-2580-4a70-aba7-699277024c20,https://data.globalchange.gov/reference/ad473f6f-2580-4a70-aba7-699277024c20,ad473f6f-2580-4a70-aba7-699277024c20,"Sekaluvu, Lawrence; Zhang, Lefei; Gitau, Margaret",10.1016/j.jenvman.2017.09.063,0301-4797,,"Journal of Environmental Management","Water quality; Total Phosphorus; Soluble Reactive Phosphorus; Western Lake Erie Basin; Precipitation; Land management",85-98,"Evaluation of constraints to water quality improvements in the Western Lake Erie Basin",205,2018,26608,ad473f6f-2580-4a70-aba7-699277024c20,"Journal Article",/article/10.1016/j.jenvman.2017.09.063
/reference/aea68228-a48b-4827-9403-3c43499afc55,https://data.globalchange.gov/reference/aea68228-a48b-4827-9403-3c43499afc55,aea68228-a48b-4827-9403-3c43499afc55,"Mishra, Vimal; Cherkauer, Keith A.; Niyogi, Dev; Lei, Ming; Pijanowski, Bryan C.; Ray, Deepak K.; Bowling, Laura C.; Yang, Guoxiang",10.1002/joc.2095,1097-0088,13,"International Journal of Climatology","Land cover change; land-use change; climate change; land surface response; sensitivity analysis; water and energy cycle; deforestation/reforestation; urbanization; VIC; IPCC",2025-2044,"A regional scale assessment of land use/land cover and climatic changes on water and energy cycle in the upper Midwest United States",30,2010,21109,aea68228-a48b-4827-9403-3c43499afc55,"Journal Article",/article/10.1002/joc.2095
/reference/aeb9b543-7b7d-48e7-b1a6-57de7bff663c,https://data.globalchange.gov/reference/aeb9b543-7b7d-48e7-b1a6-57de7bff663c,aeb9b543-7b7d-48e7-b1a6-57de7bff663c,"Peterson, Kristina; Maldonado, Julie Koppel",,,,,,336-353,"When adaptation is not enough: “Between now and then” of community-led resettlement",,2016,26605,aeb9b543-7b7d-48e7-b1a6-57de7bff663c,"Book Section",/book/b8b89670-ca60-4597-943f-d5d48dcdcc27
/reference/b00a1349-fb5f-4e2d-b1bc-cfceb0863de2,https://data.globalchange.gov/reference/b00a1349-fb5f-4e2d-b1bc-cfceb0863de2,b00a1349-fb5f-4e2d-b1bc-cfceb0863de2,"Kovats, R. S.
Hajat, S.",10.1146/annurev.publhealth.29.020907.090843,0163-7525,,"Annual Review of Public Health","heat waves; early warning; mortality; august 2003; air-pollution; hospital admissions; united-states; excess mortality; elderly-people; french cities; risk-factors; hot weather; series data",41-55,"Heat stress and public health: A critical review",29,2008,831,b00a1349-fb5f-4e2d-b1bc-cfceb0863de2,"Journal Article",/article/10.1146/annurev.publhealth.29.020907.090843
/reference/b0449e10-e122-4c04-a967-f2aef8b905b8,https://data.globalchange.gov/reference/b0449e10-e122-4c04-a967-f2aef8b905b8,b0449e10-e122-4c04-a967-f2aef8b905b8,"City of Chicago,",,,,,,,"City Unveils “Greenest Street in America” in Pilsen Neighborhood",,2012,21297,b0449e10-e122-4c04-a967-f2aef8b905b8,"Press Release",/generic/c8b9985b-7191-45dd-8d2f-b5e74c2e37f9
/reference/b0d94572-aa34-47e0-bddf-0a8e7e0c60bb,https://data.globalchange.gov/reference/b0d94572-aa34-47e0-bddf-0a8e7e0c60bb,b0d94572-aa34-47e0-bddf-0a8e7e0c60bb,"Pearson, Richard G.; Stanton, Jessica C.; Shoemaker, Kevin T.; Aiello-Lammens, Matthew E.; Ersts, Peter J.; Horning, Ned; Fordham, Damien A.; Raxworthy, Christopher J.; Ryu, Hae Yeong; McNees, Jason; Akcakaya, H. Resit",10.1038/nclimate2113,1758-678X,3,"Nature Climate Change",,217-221,"Life history and spatial traits predict extinction risk due to climate change",4,2014,21158,b0d94572-aa34-47e0-bddf-0a8e7e0c60bb,"Journal Article",/article/10.1038/nclimate2113
/reference/b228ac0d-7bf9-4391-99e7-5c598b9ce55e,https://data.globalchange.gov/reference/b228ac0d-7bf9-4391-99e7-5c598b9ce55e,b228ac0d-7bf9-4391-99e7-5c598b9ce55e,,,,,,,,"Climate Change in the Midwest: Impacts, Risks, Vulnerability and Adaptation",,2013,2544,b228ac0d-7bf9-4391-99e7-5c598b9ce55e,"Edited Book",/book/434135ed-eb50-4c46-9484-77563769e657
/reference/b318487a-1070-4ea1-8fb7-a80c61f5f9f6,https://data.globalchange.gov/reference/b318487a-1070-4ea1-8fb7-a80c61f5f9f6,b318487a-1070-4ea1-8fb7-a80c61f5f9f6,"Fisichelli, Nicholas A.; Abella, Scott R.; Peters, Matthew; Krist, Frank J.",10.1016/j.foreco.2014.04.033,0378-1127,,"Forest Ecology and Management","Climate change adaptation; Eastern United States; Forest health; Nonnative species; Vulnerability Assessment",31-39,"Climate, trees, pests, and weeds: Change, uncertainty, and biotic stressors in eastern U.S. national park forests",327,2014,21137,b318487a-1070-4ea1-8fb7-a80c61f5f9f6,"Journal Article",/article/10.1016/j.foreco.2014.04.033
/reference/b3855765-38da-4fd9-8288-874a43b16607,https://data.globalchange.gov/reference/b3855765-38da-4fd9-8288-874a43b16607,b3855765-38da-4fd9-8288-874a43b16607,"Bebber, Daniel P.; Ramotowski, Mark A. T.; Gurr, Sarah J.",10.1038/nclimate1990,1758-678X,11,"Nature Climate Change",,985-988,"Crop pests and pathogens move polewards in a warming world",3,2013,21157,b3855765-38da-4fd9-8288-874a43b16607,"Journal Article",/article/10.1038/nclimate1990
/reference/b3ba546e-9bbf-47c2-a9da-3ddc4252561c,https://data.globalchange.gov/reference/b3ba546e-9bbf-47c2-a9da-3ddc4252561c,b3ba546e-9bbf-47c2-a9da-3ddc4252561c,"Sturrock, R. N.; Frankel, S. J.; Brown, A. V.; Hennon, P. E.; Kliejunas, J. T.; Lewis, K. J.; Worrall, J. J.; Woods, A. J.",10.1111/j.1365-3059.2010.02406.x,1365-3059,1,"Plant Pathology","forest management; forest pathogens; plant disease management; plant pathogens; sudden aspen decline; yellow-cedar decline",133-149,"Climate change and forest diseases",60,2011,21191,b3ba546e-9bbf-47c2-a9da-3ddc4252561c,"Journal Article",/article/10.1111/j.1365-3059.2010.02406.x
/reference/b476f1c4-a2d2-4944-951d-52a0f2fd90cf,https://data.globalchange.gov/reference/b476f1c4-a2d2-4944-951d-52a0f2fd90cf,b476f1c4-a2d2-4944-951d-52a0f2fd90cf,"Fei, Songlin; Desprez, Johanna M.; Potter, Kevin M.; Jo, Insu; Knott, Jonathan A.; Oswalt, Christopher M.",10.1126/sciadv.1603055,,5,"Science Advances",,e1603055,"Divergence of species responses to climate change",3,2017,25153,b476f1c4-a2d2-4944-951d-52a0f2fd90cf,"Journal Article",/article/10.1126/sciadv.1603055
/reference/b4bcfb86-ffa2-4d7c-9a26-2927804b09a0,https://data.globalchange.gov/reference/b4bcfb86-ffa2-4d7c-9a26-2927804b09a0,b4bcfb86-ffa2-4d7c-9a26-2927804b09a0,"Ma, Wu; Liang, Jingjing; Cumming, Jonathan R.; Lee, Eungul; Welsh, Amy B.; Watson, James V.; Zhou, Mo",10.1016/j.ecolmodel.2016.03.021,0304-3800,,"Ecological Modelling","Climate change; Fire regime; Matrix growth model; Forest dynamics; Monte Carlo simulations; Appalachians",28-41,"Fundamental shifts of central hardwood forests under climate change",332,2016,21132,b4bcfb86-ffa2-4d7c-9a26-2927804b09a0,"Journal Article",/article/10.1016/j.ecolmodel.2016.03.021
/reference/b4bf88f4-7c83-4330-8721-28e3393f1e2b,https://data.globalchange.gov/reference/b4bf88f4-7c83-4330-8721-28e3393f1e2b,b4bf88f4-7c83-4330-8721-28e3393f1e2b,"Mitsch, William J.; James G. Gosselink",,,,,,701-702,"Appendix A. Wetland losses by state in the United States, 1780s–1980s",,2015,21280,b4bf88f4-7c83-4330-8721-28e3393f1e2b,"Book Section",/book/cf0907c5-00bf-4990-b713-870c93b057e8
/reference/b63bd0c7-4a60-4486-86b1-94a8b86b32da,https://data.globalchange.gov/reference/b63bd0c7-4a60-4486-86b1-94a8b86b32da,b63bd0c7-4a60-4486-86b1-94a8b86b32da,"Austin, Jay A.
Colman, Steven M.",10.1029/2006GL029021,0094-8276,6,"Geophysical Research Letters","Lake Superior; climate change; ice; 0746 Cryosphere: Lakes; 1630 Global Change: Impacts of global change; 1637 Global Change: Regional climate change; 1845 Hydrology: Limnology; 4239 Oceanography: General: Limnology",L06604,"Lake Superior summer water temperatures are increasing more rapidly than regional air temperatures: A positive ice-albedo feedback",34,2007,1026,b63bd0c7-4a60-4486-86b1-94a8b86b32da,"Journal Article",/article/10.1029/2006GL029021
/reference/b6fa03e3-c8b5-448b-929a-e187bc520a5e,https://data.globalchange.gov/reference/b6fa03e3-c8b5-448b-929a-e187bc520a5e,b6fa03e3-c8b5-448b-929a-e187bc520a5e,"National Agricultural Statistics Service,",,,,,,249,"2012 Census of Agriculture: 2013 Farm and Ranch Irrigation Survey",3,2014,22641,b6fa03e3-c8b5-448b-929a-e187bc520a5e,Report,/report/2012-census-agriculture-2013-farm-ranch-irrigation-survey
/reference/b71cbf27-2a1d-477e-9d0a-4d49b427ed47,https://data.globalchange.gov/reference/b71cbf27-2a1d-477e-9d0a-4d49b427ed47,b71cbf27-2a1d-477e-9d0a-4d49b427ed47,"Larsen, Angela; Derby Lewis, Abigail; Lyandres, Olga; Chen, Tingqiao; Frank, Ken",,,,,,18,"Developing a Community of Climate‐Informed Conservation Practitioners to Protect a Priority Landscape in Illinois and Wisconsin",,2013,21283,b71cbf27-2a1d-477e-9d0a-4d49b427ed47,Report,/report/developing-community-climateinformed-conservation-practitioners-protect-priority-landscape-illinois-wisconsin
/reference/b74c5cc9-2e40-4ad9-92aa-f2b02c7a4be7,https://data.globalchange.gov/reference/b74c5cc9-2e40-4ad9-92aa-f2b02c7a4be7,b74c5cc9-2e40-4ad9-92aa-f2b02c7a4be7,"EPA,",,,,,,120,"Being Prepared for Climate Change: A Workbook for Developing Risk-Based Adaptation Plans",,2014,21322,b74c5cc9-2e40-4ad9-92aa-f2b02c7a4be7,Report,/report/being-prepared-climate-change-workbook-developing-risk-based-adaptation-plans