uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,attrs.Issue,attrs.Journal,attrs.Pages,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/9878d869-8a7d-441c-9089-0cac578142de,https://data.globalchange.gov/reference/9878d869-8a7d-441c-9089-0cac578142de,9878d869-8a7d-441c-9089-0cac578142de,"In the arid Southwest, snowpack in mountains plays an essential role in supplying surface water resources. Water managers from the Navajo Nation monitor snowpack at nine snow survey stations located in the Chuska Mountains and Defiance Plateau in northern Arizona and New Mexico. We characterize these snowpack data for the period 1985-2014 and evaluate the efficacy of snowpack data collection efforts. Peak snow water equivalent occurs in early to mid-March depending on elevation. Variability in snowpack levels correlates highly among all sites (r > 0.64), but higher elevation sites in the Chuska Mountains correlate more strongly with one another compared to lower elevation sites and vice versa. Northern sites also correlate well with each other. A principal component analysis is used to create a weighted average time series of year-to-year peak snowpack variability. The first principal component showed no trend in increasing or decreasing Navajo Nation snowpack. Results from this research will provide the Navajo Nation Department of Water Resources information to help determine if any snow survey sites in the Chuska Mountains are redundant and can be discontinued to save time and money, while still providing snowpack information needed by the Navajo Nation. This summary of snowpack patterns, variability, and trends in the Chuska Mountains and Defiance Plateau will help the Navajo Nation to understand how snowpack and water resources respond to climate change and climate variability.","Tsinnajinnie, Lani M.; Gutzler, David S.; John, Jason",10.1111/j.1936-704X.2018.03274.x,1,"Journal of Contemporary Water Research & Education",124-138,"Navajo Nation snowpack variability from 1985-2014 and implications for water resources management",163,2018,25996,9878d869-8a7d-441c-9089-0cac578142de,"Journal Article",/article/10.1111/j.1936-704X.2018.03274.x
/reference/a2135da9-c8b1-486f-9656-59d8a52b1975,https://data.globalchange.gov/reference/a2135da9-c8b1-486f-9656-59d8a52b1975,a2135da9-c8b1-486f-9656-59d8a52b1975,,,,,,,"Climate Change in the Northwest: Implications for Our Landscapes, Waters, And Communities",,2013,3849,a2135da9-c8b1-486f-9656-59d8a52b1975,"Edited Book",/report/usgcrp-ti-climatechange-northwest-2013
/reference/a56ad752-bd50-4ab5-9bf3-1ad78c7acc49,https://data.globalchange.gov/reference/a56ad752-bd50-4ab5-9bf3-1ad78c7acc49,a56ad752-bd50-4ab5-9bf3-1ad78c7acc49,,"Miller, Robert J.",,,,,"Reservation ""Capitalism"": Economic Development in Indian Country",,2012,25993,a56ad752-bd50-4ab5-9bf3-1ad78c7acc49,Book,/book/reservation-capitalism-economic-development-indian-country
/reference/a70c5744-3f77-4829-bf40-803b0ea0a14a,https://data.globalchange.gov/reference/a70c5744-3f77-4829-bf40-803b0ea0a14a,a70c5744-3f77-4829-bf40-803b0ea0a14a,,"Whyte, Kyle Powys",10.1007/s10584-013-0743-2,3,"Climatic Change",517-530,"Justice forward: Tribes, climate adaptation and responsibility",120,2013,3802,a70c5744-3f77-4829-bf40-803b0ea0a14a,"Journal Article",/article/10.1007/s10584-013-0743-2
/reference/ae8eaf7f-bb6c-4874-80fb-1e0d287c03f6,https://data.globalchange.gov/reference/ae8eaf7f-bb6c-4874-80fb-1e0d287c03f6,ae8eaf7f-bb6c-4874-80fb-1e0d287c03f6,,"Wilson, Nicole J.",10.1007/s10745-013-9619-3,,"Human Ecology",87-101,"The politics of adaptation: Subsistence livelihoods and vulnerability to climate change in the Koyukon Athabascan Village of Ruby, Alaska",42,2014,22331,ae8eaf7f-bb6c-4874-80fb-1e0d287c03f6,"Journal Article",/article/10.1007/s10745-013-9619-3
/reference/af12c950-05d7-46bb-926a-c2d0d7672fb1,https://data.globalchange.gov/reference/af12c950-05d7-46bb-926a-c2d0d7672fb1,af12c950-05d7-46bb-926a-c2d0d7672fb1,"Due to its semi-arid climate, the Navajo Nation, situated in the southwestern United States, is sensitive to small changes in precipitation. However, little information on patterns and causes of rainfall variation is available for this sparsely populated region. In order to study stability and variability over time, this study characterized hydroclimatic changes for the Navajo Nation over timescales of months to years based on data from 90 sites from 2002 to 2015. This research will help local water managers identify related precipitation areas within the region, compare Navajo Nation precipitation with climate indices to ascertain larger-scale atmospheric contributors to precipitation in the Four Corners region, and support future water planning in this understudied region. A vector quantization method, called k-means clustering, identified five sub-regions of contrasting precipitation climatology. The regions differed in the timing, magnitude, and relative importance of the winter and summer peaks comprising the bimodal precipitation regime of the area. Correlation examination of spatial and temporal trends of precipitation variability with three climate indices revealed strong winter precipitation relationships to the Pacific North American teleconnection pattern for all regions; summer precipitation teleconnections were weaker and more variable; however, modest correlations with Pacific Decadal Oscillation were observed. Climate field analysis indicates that cold-season precipitation is enhanced by intensification of the Aleutian Low with a storm trajectory into the southwest United States; warm season precipitation is enhanced by poleward shift of the North American monsoon ridge.","Tulley-Cordova, Crystal L.; Strong, Courtenay; Brady, Irving P.; Bekis, Jerome; Bowen, Gabriel J.",10.1111/j.1936-704X.2018.03273.x,1,"Journal of Contemporary Water Research & Education",109-123,"Navajo Nation, USA, precipitation variability from 2002 to 2015",163,2018,25995,af12c950-05d7-46bb-926a-c2d0d7672fb1,"Journal Article",/article/10.1111/j.1936-704X.2018.03273.x
/reference/bb12535a-6414-40fa-8f01-865a9707044c,https://data.globalchange.gov/reference/bb12535a-6414-40fa-8f01-865a9707044c,bb12535a-6414-40fa-8f01-865a9707044c,,"McNeeley, Shannon M.; Dewes, Candida F.; Stiles, Crystal J.; Beeton, Tyler A.; Rangwala, Imtiaz; Hobbins, Michael T.; Knutson, Cody L.",10.1016/j.crm.2017.09.004,,"Climate Risk Management",61-82,"Anatomy of an interrupted irrigation season: Micro-drought at the Wind River Indian Reservation",19,2017,24932,bb12535a-6414-40fa-8f01-865a9707044c,"Journal Article",/article/10.1016/j.crm.2017.09.004
/reference/c4dc3e2c-5be5-4afc-ae7d-7a4f1d65a126,https://data.globalchange.gov/reference/c4dc3e2c-5be5-4afc-ae7d-7a4f1d65a126,c4dc3e2c-5be5-4afc-ae7d-7a4f1d65a126,,"Castrodale, Louisa",,1,"[State of Alaska] Epidemiology Bulletin",1,"Paralytic shellfish poisoning — Alaska, 1993–2014",2015,2015,24973,c4dc3e2c-5be5-4afc-ae7d-7a4f1d65a126,"Journal Article",/generic/e4519ab4-d880-4630-8fab-23f65d219cb5
/reference/c4f8d3c8-e7c8-4128-84ab-24cfadfeecb5,https://data.globalchange.gov/reference/c4f8d3c8-e7c8-4128-84ab-24cfadfeecb5,c4f8d3c8-e7c8-4128-84ab-24cfadfeecb5,,"Brubaker, Mike; Zweifel, Kevin; Demir, Jennifer; Shannon, Anahma",,,,58,"Climate change in the Bering Strait region: Observations and lessons from seven communities",,2015,24953,c4f8d3c8-e7c8-4128-84ab-24cfadfeecb5,Report,/report/climate-change-bering-strait-region-observations-lessons-seven-communities
/reference/d1e4a798-e7df-4ff8-bedf-0874e6235704,https://data.globalchange.gov/reference/d1e4a798-e7df-4ff8-bedf-0874e6235704,d1e4a798-e7df-4ff8-bedf-0874e6235704,,"Jones, Thomas Elisha",,,,,"Analysis of the Barriers to Renewable Energy Development on Tribal Lands",,2016,25352,d1e4a798-e7df-4ff8-bedf-0874e6235704,Thesis,/generic/01d188d1-636b-49e6-af43-c1544cee9319
/reference/d3ad1713-d5f8-421b-9ca2-10b8a09e26b8,https://data.globalchange.gov/reference/d3ad1713-d5f8-421b-9ca2-10b8a09e26b8,d3ad1713-d5f8-421b-9ca2-10b8a09e26b8,,"Shoemaker, Jessica A.",,,"Michigan Law Review",487-552,"Complexity's shadow: American Indian property, sovereignty, and the future",115,2017,25366,d3ad1713-d5f8-421b-9ca2-10b8a09e26b8,"Journal Article",/article/complexitys-shadow-american-indian-property-sovereignty-future
/reference/d3bcbe1d-c24c-4905-8783-798f4f480ce1,https://data.globalchange.gov/reference/d3bcbe1d-c24c-4905-8783-798f4f480ce1,d3bcbe1d-c24c-4905-8783-798f4f480ce1,,"Gerlach, S. Craig; Loring, Philip A.",10.3402/ijch.v72i0.21560,1,"International Journal of Circumpolar Health",21560,"Rebuilding northern foodsheds, sustainable food systems, community well-being, and food security",72,2013,23767,d3bcbe1d-c24c-4905-8783-798f4f480ce1,"Journal Article",/article/10.3402/ijch.v72i0.21560
/reference/d75aae80-11ea-49c8-8d65-c3ecb3a58ed8,https://data.globalchange.gov/reference/d75aae80-11ea-49c8-8d65-c3ecb3a58ed8,d75aae80-11ea-49c8-8d65-c3ecb3a58ed8,,"DOE,",,,,489,"Tribal Energy System Vulnerabilities to Climate Change and Extreme Weather",,2015,21348,d75aae80-11ea-49c8-8d65-c3ecb3a58ed8,Report,/report/tribal-energy-system-vulnerabilities-climate-change-extreme-weather
/reference/d7ed19d6-e5ac-4b44-b686-0a8a16fc431b,https://data.globalchange.gov/reference/d7ed19d6-e5ac-4b44-b686-0a8a16fc431b,d7ed19d6-e5ac-4b44-b686-0a8a16fc431b,"The rate at which global mean sea level (GMSL) rose during the 20th century is uncertain, with little consensus between various reconstructions that indicate rates of rise ranging from 1.3 to 2 mm⋅y−1. Here we present a 20th-century GMSL reconstruction computed using an area-weighting technique for averaging tide gauge records that both incorporates up-to-date observations of vertical land motion (VLM) and corrections for local geoid changes resulting from ice melting and terrestrial freshwater storage and allows for the identification of possible differences compared with earlier attempts. Our reconstructed GMSL trend of 1.1 ± 0.3 mm⋅y−1 (1σ) before 1990 falls below previous estimates, whereas our estimate of 3.1 ± 1.4 mm⋅y−1 from 1993 to 2012 is consistent with independent estimates from satellite altimetry, leading to overall acceleration larger than previously suggested. This feature is geographically dominated by the Indian Ocean–Southern Pacific region, marking a transition from lower-than-average rates before 1990 toward unprecedented high rates in recent decades. We demonstrate that VLM corrections, area weighting, and our use of a common reference datum for tide gauges may explain the lower rates compared with earlier GMSL estimates in approximately equal proportion. The trends and multidecadal variability of our GMSL curve also compare well to the sum of individual contributions obtained from historical outputs of the Coupled Model Intercomparison Project Phase 5. This, in turn, increases our confidence in process-based projections presented in the Fifth Assessment Report of the Intergovernmental Panel on Climate Change.","Dangendorf, Sönke; Marcos, Marta; Wöppelmann, Guy; Conrad, Clinton P.; Frederikse, Thomas; Riva, Riccardo",10.1073/pnas.1616007114,23,"Proceedings of the National Academy of Sciences of the United States of America",5946-5951,"Reassessment of 20th century global mean sea level rise",114,2017,22415,d7ed19d6-e5ac-4b44-b686-0a8a16fc431b,"Journal Article",/article/10.1073/pnas.1616007114
/reference/d8c1f7f9-fb54-45d9-911e-4be513768d09,https://data.globalchange.gov/reference/d8c1f7f9-fb54-45d9-911e-4be513768d09,d8c1f7f9-fb54-45d9-911e-4be513768d09,,"Grossman, Z.
Parker, A.
Frank, B.",,,,,"Asserting Native Resilience: Pacific Rim Indigenous Nations Face the Climate Crisis",,2012,3899,d8c1f7f9-fb54-45d9-911e-4be513768d09,Book,/book/9ccab58b-e800-4cb0-b1c7-e6ff111013ea
/reference/da9ddc98-c6e4-4316-9735-d53569de26a5,https://data.globalchange.gov/reference/da9ddc98-c6e4-4316-9735-d53569de26a5,da9ddc98-c6e4-4316-9735-d53569de26a5,,"Ravotti, Nicholas M.",,2,"American Indian Law Review",279-318,"Access to energy in Indian Country: The difficulties of self-determination in renewable energy development",41,2017,25360,da9ddc98-c6e4-4316-9735-d53569de26a5,"Journal Article",/article/access-energy-indian-country-difficulties-self-determination-renewable-energy-development
/reference/debdf209-4050-4706-965c-09cff7ec353b,https://data.globalchange.gov/reference/debdf209-4050-4706-965c-09cff7ec353b,debdf209-4050-4706-965c-09cff7ec353b,,"Voggesser, Garrit
Lynn, Kathy
Daigle, John
Lake, Frank K.
Ranco, Darren",10.1007/s10584-013-0733-4,3,"Climatic Change",615-626,"Cultural impacts to tribes from climate change influences on forests",120,2013,3852,debdf209-4050-4706-965c-09cff7ec353b,"Journal Article",/article/10.1007/s10584-013-0733-4
/reference/e043e0ac-8be2-4da7-824a-7b08b2bd7b15,https://data.globalchange.gov/reference/e043e0ac-8be2-4da7-824a-7b08b2bd7b15,e043e0ac-8be2-4da7-824a-7b08b2bd7b15,,"Peterson, Harold; McGhee, Chester; Blackhair, Johnna; Rawlings, Leonard; Kelley, Marlene; Bluecloud, Keith; Harjo, Rheta; Ruth, Andrew; Saunders, David; Gordon, Latonya; Maytubby, Bruce",,,,"Paper 864","Weather Ready Nation Ambassadors Program at the Bureau of Indian Affairs",,2016,24972,e043e0ac-8be2-4da7-824a-7b08b2bd7b15,"Conference Paper",/generic/b74e0609-19f9-4f26-b7c9-10dd28287619
/reference/e061ef38-98af-418f-8a2a-6a60fabda25e,https://data.globalchange.gov/reference/e061ef38-98af-418f-8a2a-6a60fabda25e,e061ef38-98af-418f-8a2a-6a60fabda25e,,"Grah, Oliver
Beaulieu, Jezra",10.1007/s10584-013-0747-y,3,"Climatic Change",657-670,"The effect of climate change on glacier ablation and baseflow support in the Nooksack River basin and implications on Pacific salmonid species protection and recovery",120,2013,3905,e061ef38-98af-418f-8a2a-6a60fabda25e,"Journal Article",/article/10.1007/s10584-013-0747-y
/reference/fbfe908f-96b8-4926-99ff-d2ae5f2eee33,https://data.globalchange.gov/reference/fbfe908f-96b8-4926-99ff-d2ae5f2eee33,fbfe908f-96b8-4926-99ff-d2ae5f2eee33,,,,,,15,"Northwest tribes: Meeting the challenge of climate change.",,2009,24983,fbfe908f-96b8-4926-99ff-d2ae5f2eee33,"Edited Report",/report/northwest-tribes-meeting-challenge-climate-change
/reference/fdf0847b-c387-4a96-8424-7b6d03cfdc7f,https://data.globalchange.gov/reference/fdf0847b-c387-4a96-8424-7b6d03cfdc7f,fdf0847b-c387-4a96-8424-7b6d03cfdc7f,,"Maldonado, Julie Koppel",,,,,"Facing the Rising Tide: Co-occurring Disasters, Displacement, and Adaptation in Coastal Louisiana’s Tribal Communities",,2014,24982,fdf0847b-c387-4a96-8424-7b6d03cfdc7f,Thesis,/generic/3169930f-633d-41f3-b0e1-217e0e00a05e