uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,attrs.Date,attrs.ISSN,attrs.Journal,attrs.Keywords,attrs.Pages,attrs.Title,attrs.Volume,attrs.Year,attrs.\.reference_type,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/f61dcbc4-e5cf-4ef5-a41b-d0fee696e951,https://data.globalchange.gov/reference/f61dcbc4-e5cf-4ef5-a41b-d0fee696e951,f61dcbc4-e5cf-4ef5-a41b-d0fee696e951,"Routine monitoring along the coast of the Gulf of Maine (GoM) reveals shellfish toxicity nearly every summer, but at varying times, locations, and magnitudes. The responsible toxin is known to be produced by the dinoflagellate Alexandrium fundyense, yet there is little apparent association between Alexandrium abundance and shellfish toxicity. One possibility is that toxic cells are persistent in offshore areas and variability in shellfish toxicity is caused not by changes in overall abundance, but rather by variability in transport processes. Measurements of offshore Alexandrium biomass are scarce, so we bypass cell abundance as an explanatory variable and focus instead on the relations between shellfish toxicity and concurrent metrics of GoM meteorology, hydrology, and oceanography. While this yields over two decades (1985–2005) of data representing a variety of interannual conditions, the toxicity data are gappy in spatial and temporal coverage. We address this through a combination of parametric curve fitting and hierarchical cluster analysis to reveal eight archetypical modes of seasonal toxicity timing. Groups of locations are then formed that have similar interannual patterns in these archetypes. Finally, the interannual patterns within each group are related to available environmental metrics using classification trees. Results indicate that a weak cross-shore sea surface temperature (SST) gradient in the summer is the strongest correlate of shellfish toxicity, likely by signifying a hydrological connection between offshore Alexandrium populations and near-shore shellfish beds. High cumulative downwelling wind strength early in the season is revealed as a precursor consistent with this mechanism. Although previous studies suggest that alongshore transport is important in moving Alexandrium from the eastern to western GoM, alongshore SST gradient is not an important correlate of toxicity in our study. We conclude by discussing the implications of our results for designing efficient and effective shellfish monitoring programs along the GoM coast.","Nair, Apurva; Thomas, Andrew C.; Borsuk, Mark E.",10.1016/j.scitotenv.2013.01.023,3/1/,1879-1026,"Science of The Total Environment","Harmful algal blooms; Red tides; Paralytic shellfish poisoning; Cluster analysis; CART modeling; Satellite remote sensing",255-266,"Interannual variability in the timing of New England shellfish toxicity and relationships to environmental forcing",447,2013,0,19080,f61dcbc4-e5cf-4ef5-a41b-d0fee696e951,"Journal Article",/article/10.1016/j.scitotenv.2013.01.023
/reference/f66b946f-c672-4a4b-8f71-1b05738e029e,https://data.globalchange.gov/reference/f66b946f-c672-4a4b-8f71-1b05738e029e,f66b946f-c672-4a4b-8f71-1b05738e029e,,"Clayton, S.; Manning, C.M.; Hodge, C.",,,,,,51,"Beyond Storms & Droughts: The Psychological Impacts of Climate Change",,2014,10,18074,f66b946f-c672-4a4b-8f71-1b05738e029e,Report,/report/apa-ecoamerica-beyond-storms-2014
/reference/f6b1aa8d-72fd-43e5-96da-1dd5fc83c8d2,https://data.globalchange.gov/reference/f6b1aa8d-72fd-43e5-96da-1dd5fc83c8d2,f6b1aa8d-72fd-43e5-96da-1dd5fc83c8d2,,"Deisenhammer, E. A.; Kemmler, G.; Parson, P.",10.1046/j.0001-690X.2003.00219.x,,1600-0447,"Acta Psychiatrica Scandinavica",,455-459,"Association of meteorological factors with suicide",108,2003,0,18224,f6b1aa8d-72fd-43e5-96da-1dd5fc83c8d2,"Journal Article",/article/10.1046/j.0001-690X.2003.00219.x
/reference/f6c69618-1568-40aa-ac9f-f72dea290b8d,https://data.globalchange.gov/reference/f6c69618-1568-40aa-ac9f-f72dea290b8d,f6c69618-1568-40aa-ac9f-f72dea290b8d,,"Cummings, A. J.; Knibb, R. C.; King, R. M.; Lucas, J. S.",10.1111/j.1398-9995.2010.02342.x,,1398-9995,Allergy,"anxiety; food allergy; quality of life; risk taking",933-945,"The psychosocial impact of food allergy and food hypersensitivity in children, adolescents and their families: A review",65,2010,0,18077,f6c69618-1568-40aa-ac9f-f72dea290b8d,"Journal Article",/article/10.1111/j.1398-9995.2010.02342.x
/reference/f719785d-3c26-46cc-bf3a-defb6e208c10,https://data.globalchange.gov/reference/f719785d-3c26-46cc-bf3a-defb6e208c10,f719785d-3c26-46cc-bf3a-defb6e208c10,,"Kelly, J.; Makar, P. A.; Plummer, D. A.",10.5194/acp-12-5367-2012,,1680-7324,"Atmospheric Chemistry and Physics",,5367-5390,"Projections of mid-century summer air-quality for North America: Effects of changes in climate and precursor emissions",12,2012,0,18903,f719785d-3c26-46cc-bf3a-defb6e208c10,"Journal Article",/article/10.5194/acp-12-5367-2012
/reference/f758a45e-fdef-49a0-876b-ba851c227bf7,https://data.globalchange.gov/reference/f758a45e-fdef-49a0-876b-ba851c227bf7,f758a45e-fdef-49a0-876b-ba851c227bf7,,"Satia, Jessie A.",10.1016/j.jada.2008.12.019,,0002-8223,"Journal of the American Dietetic Association",,610-615,"Diet-related disparities: Understanding the problem and accelerating solutions",109,2009,0,17881,f758a45e-fdef-49a0-876b-ba851c227bf7,"Journal Article",/article/10.1016/j.jada.2008.12.019
/reference/f7e0c955-dbb9-4d7b-8385-8d24325e330e,https://data.globalchange.gov/reference/f7e0c955-dbb9-4d7b-8385-8d24325e330e,f7e0c955-dbb9-4d7b-8385-8d24325e330e,,"Kim, Changsoo; Jung, Sang Hyuk; Kang, Dae Ryong; Kim, Hyeon Chang; Moon, Ki Tae; Hur, Nam Wook; Shin, Dong Chun; Suh, Il",10.1176/appi.ajp.2010.09050706,2010/09/01,1535-7228,"The American Journal of Psychiatry",,1100-1107,"Ambient particulate matter as a risk factor for suicide",167,2010,0,18110,f7e0c955-dbb9-4d7b-8385-8d24325e330e,"Journal Article",/article/10.1176/appi.ajp.2010.09050706
/reference/f7ffc8dd-70ec-4779-817a-b2985c0779e7,https://data.globalchange.gov/reference/f7ffc8dd-70ec-4779-817a-b2985c0779e7,f7ffc8dd-70ec-4779-817a-b2985c0779e7,,EPA,,,,,,,"Integrated Science Assessment for Particulate Matter",,2009,10,18616,f7ffc8dd-70ec-4779-817a-b2985c0779e7,Report,/report/epa-600-r-08-139f
/reference/f84bea7d-336f-427b-af0d-03d049ea626c,https://data.globalchange.gov/reference/f84bea7d-336f-427b-af0d-03d049ea626c,f84bea7d-336f-427b-af0d-03d049ea626c,,"Hanna, Elizabeth G.; Tait, Peter W.",10.3390/ijerph120708034,,1660-4601,"International Journal of Environmental Research and Public Health",,8034-8074,"Limitations to thermoregulation and acclimatization challenge human adaptation to global warming",12,2015,0,19128,f84bea7d-336f-427b-af0d-03d049ea626c,"Journal Article",/article/10.3390/ijerph120708034
/reference/f86c2421-ca6f-4634-822b-73de01b5168f,https://data.globalchange.gov/reference/f86c2421-ca6f-4634-822b-73de01b5168f,f86c2421-ca6f-4634-822b-73de01b5168f,,"Wang, Guiming; Minnis, Richard B.; Belant, Jerrold L.; Wax, Charles L.",10.1186/1471-2334-10-38,,1471-2334,"BMC Infectious Diseases",,38,"Dry weather induces outbreaks of human West Nile virus infections",10,2010,0,16348,f86c2421-ca6f-4634-822b-73de01b5168f,"Journal Article",/article/10.1186/1471-2334-10-38
/reference/f8911f98-5481-48f7-bef1-7900ae16f535,https://data.globalchange.gov/reference/f8911f98-5481-48f7-bef1-7900ae16f535,f8911f98-5481-48f7-bef1-7900ae16f535,,"Moore, Stephanie K.
Mantua, Nathan J.
Salathé, Eric P., Jr.",10.1016/j.hal.2011.04.004,,1568-9883,"Harmful Algae","Alexandrium catenella
Climate change
Harmful algal bloom window of opportunity
Paralytic shellfish toxins
Paralytic shellfish poisoning
Puget Sound",521-529,"Past trends and future scenarios for environmental conditions favoring the accumulation of paralytic shellfish toxins in Puget Sound shellfish",10,2011,0,3840,f8911f98-5481-48f7-bef1-7900ae16f535,"Journal Article",/article/10.1016/j.hal.2011.04.004
/reference/f89543d6-09bf-436c-8f7e-c0f908473457,https://data.globalchange.gov/reference/f89543d6-09bf-436c-8f7e-c0f908473457,f89543d6-09bf-436c-8f7e-c0f908473457,,"Blando, James; Bielory, Leonard; Nguyen, Viann; Diaz, Rafael; Jeng, Hueiwang Anna",10.3390/atmos3010200,,2073-4433,Atmosphere,,200-212,"Anthropogenic climate change and allergic diseases",3,2012,0,17657,f89543d6-09bf-436c-8f7e-c0f908473457,"Journal Article",/article/10.3390/atmos3010200
/reference/f895c7bb-2487-4b77-96e9-0fa249f36002,https://data.globalchange.gov/reference/f895c7bb-2487-4b77-96e9-0fa249f36002,f895c7bb-2487-4b77-96e9-0fa249f36002,"Hantaviruses comprise an emerging global threat for public health, affecting about 30,000 humans annually. Infection may lead to Hantavirus pulmonary syndrome (HPS) in the Americas and hemorrhagic fever with renal syndrome (HFRS) in the Europe and Asia. Humans are spillover hosts, acquiring infection primarily through the inhalation of aerosolized excreta from infected rodents and insectivores. Risk factors for infection include involvement in outdoor activities, such as rural- and forest-related activities, peridomestic rodent presence, exposure to potentially infected dust and outdoor military training; prolonged, intimate contact with infected individuals promotes transmission of Andes virus, the only Hantavirus known to be transmitted from human-to-human. The total number of Hantavirus case reports is generally on the rise, as is the number of affected countries. Knowledge of the geographical distribution, regional incidence and associated risk factors of the disease are crucial for clinicians to suspect and diagnose infected individuals early on. Climatic, ecological and environmental changes are related to fluctuations in rodent populations, and subsequently to human epidemics. Thus, prevention may be enhanced by host-reservoir control and human exposure prophylaxis interventions, which likely have led to a dramatic reduction of human cases in China over the past decades; vaccination may also play a role in the future.","Watson, D. C.; Sargianou, M.; Papa, A.; Chra, P.; Starakis, I.; Panos, G.",10.3109/1040841x.2013.783555,Aug,1549-7828,"Critical Reviews in Microbiology","Animals; Communicable Disease Control/*methods; Communicable Diseases, Emerging/*epidemiology/*prevention & control; *Disease Reservoirs; Global Health; Hantavirus Infections/*epidemiology/*prevention & control; Humans; Incidence; Prevalence; Risk Factors; *Rodentia; Topography, Medical; Zoonoses/epidemiology/prevention & control",261-272,"Epidemiology of Hantavirus infections in humans: A comprehensive, global overview",40,2014,0,18760,f895c7bb-2487-4b77-96e9-0fa249f36002,"Journal Article",/article/10.3109/1040841x.2013.783555
/reference/f8c93e31-bea6-4ff2-ac24-2d75fe9d5987,https://data.globalchange.gov/reference/f8c93e31-bea6-4ff2-ac24-2d75fe9d5987,f8c93e31-bea6-4ff2-ac24-2d75fe9d5987,,"Bellou, M.; Kokkinos, P.; Vantarakis, A.",10.1007/s12560-012-9097-6,2013/03/01,1867-0342,"Food and Environmental Virology","Shellfish; Outbreak; Viral infection; Consumption; Sewage",13-23,"Shellfish-borne viral outbreaks: A systematic review",5,2013,0,19043,f8c93e31-bea6-4ff2-ac24-2d75fe9d5987,"Journal Article",/article/10.1007/s12560-012-9097-6
/reference/f8e45aeb-8abe-4834-93f1-cfd656f62493,https://data.globalchange.gov/reference/f8e45aeb-8abe-4834-93f1-cfd656f62493,f8e45aeb-8abe-4834-93f1-cfd656f62493,,"Grineski, Sara E.; Staniswalis, Joan G.; Bulathsinhala, Priyangi; Peng, Yanlei; Gill, Thomas E.",10.1016/j.envres.2011.06.007,,0013-9351,"Environmental Research",,1148-1155,"Hospital admissions for asthma and acute bronchitis in El Paso, Texas: Do age, sex, and insurance status modify the effects of dust and low wind events?",111,2011,0,16306,f8e45aeb-8abe-4834-93f1-cfd656f62493,"Journal Article",/article/10.1016/j.envres.2011.06.007
/reference/f8e6665b-8c22-43da-87e7-b5c4c529636a,https://data.globalchange.gov/reference/f8e6665b-8c22-43da-87e7-b5c4c529636a,f8e6665b-8c22-43da-87e7-b5c4c529636a,,"Beggs, Paul J.; Walczyk, Nicole E.",10.1007/s11869-008-0013-z,,1873-9326,"Air Quality, Atmosphere & Health",,119-123,"Impacts of climate change on plant food allergens: A previously unrecognized threat to human health",1,2008,0,19205,f8e6665b-8c22-43da-87e7-b5c4c529636a,"Journal Article",/article/10.1007/s11869-008-0013-z
/reference/f8e99ff1-f5d6-4b9b-a844-2007310584f8,https://data.globalchange.gov/reference/f8e99ff1-f5d6-4b9b-a844-2007310584f8,f8e99ff1-f5d6-4b9b-a844-2007310584f8,"BACKGROUND: Hurricane Ike struck the Galveston Bay area of Texas on September 13, 2008, leaving substantial destruction and a number of deaths in its wake. We assessed differences in the determinants of posttraumatic stress disorder (PTSD) and depression after this event, including the particular hurricane experiences, including postevent nontraumatic stressors, that were associated with these pathologies. METHODS: 658 adults who had been living in Galveston and Chambers counties, TX in the month before Hurricane Ike were interviewed 2-5 months after the hurricane. We collected information on experiences during and after Hurricane Ike, PTSD and depressive symptoms in the month before the interview, and socio-demographic characteristics. RESULTS: The prevalence of past month hurricane-related PTSD and depression was 6.1 and 4.9%, respectively. Hurricane experiences, but not socio-demographic characteristics, were associated with Ike-related PTSD. By contrast, lower education and household income, and more lifetime stressors were associated with depression, as were hurricane exposures and hurricane-related stressors. When looking at specific hurricane-related stressors, loss or damage of sentimental possessions was associated with both PTSD and depression; however, health problems related to Ike were associated only with PTSD, whereas financial loss as a result of the hurricane was associated only with depression. CONCLUSIONS: PTSD is indeed a disorder of event exposure, whereas risk of depression is more clearly driven by personal vulnerability and exposure to stressors. The role of nontraumatic stressors in shaping risk of both pathologies suggests that alleviating stressors after disasters has clear potential to mitigate the psychological sequelae of these events.","Tracy, M.; Norris, F. H.; Galea, S.",10.1002/da.20838,Aug,1091-4269,"Depression and Anxiety","Adolescent; Adult; Aged; Aged, 80 and over; *Cyclonic Storms; Depressive Disorder/economics/epidemiology/*psychology; Disasters; Female; Health Surveys; Humans; Life Change Events; Male; Middle Aged; Prevalence; Psychological Tests; Risk Factors; Stress Disorders, Post-Traumatic/economics/epidemiology/*psychology; Texas; Young Adult",666-675,"Differences in the determinants of posttraumatic stress disorder and depression after a mass traumatic event",28,2011,0,18196,f8e99ff1-f5d6-4b9b-a844-2007310584f8,"Journal Article",/article/10.1002/da.20838
/reference/f9399ac9-ce3e-43fc-9b99-654a5786f2e9,https://data.globalchange.gov/reference/f9399ac9-ce3e-43fc-9b99-654a5786f2e9,f9399ac9-ce3e-43fc-9b99-654a5786f2e9,,"Collins, Timothy W.; Jimenez, Anthony M.; Grineski, Sara E.",10.1007/s10903-012-9626-2,,1557-1920,"Journal of Immigrant and Minority Health",,415-426,"Hispanic health disparities after a flood disaster: Results of a population-based survey of individuals experiencing home site damage in El Paso (Texas, USA)",15,2013,0,16297,f9399ac9-ce3e-43fc-9b99-654a5786f2e9,"Journal Article",/article/10.1007/s10903-012-9626-2
/reference/f97a9f54-fd6c-471e-9bb2-f1459f41c403,https://data.globalchange.gov/reference/f97a9f54-fd6c-471e-9bb2-f1459f41c403,f97a9f54-fd6c-471e-9bb2-f1459f41c403,"Animal studies have suggested that fine particulate matter (PM) can translocate from the upper respiratory tract to the brain and cause brain inflammation. Brain inflammation is involved in the pathogenesis of neurodegenerative diseases. Hypothesizing therefore that long-term exposure to fine PM might contribute to the development of Alzheimer's disease (AD), the objective of this study was to investigate the association between exposure to fine PM and mild cognitive impairment (MCI) which is associated with a high risk of progression to AD. A study group of 399 women aged 68-79 years who lived for more than 20 years at the same residential address has been assessed for long-term exposure to PM and tested for MCI. The exposure assessment comprised background concentration of PM(10) and traffic-related PM indicated by the distance of the residential address to the next busy road. The women were assessed for MCI by a battery of several neuropsychological tests and their odor identification ability. Consistent effects of traffic-related air pollution exposure on test performances including a dose-response relation were found. The associations were adjusted for potential confounders using regression analysis. These results indicate that chronic exposure to traffic-related PM may be involved in the pathogenesis of AD.","Ranft, U.; Schikowski, T.; Sugiri, D.; Krutmann, J.; Kramer, U.",10.1016/j.envres.2009.08.003,Nov,0013-9351,"Environmental Research","Aged; Cognition Disorders/*chemically induced; *Environmental Exposure; Humans; Vehicle Emissions/*toxicity",1004-1011,"Long-term exposure to traffic-related particulate matter impairs cognitive function in the elderly",109,2009,0,18164,f97a9f54-fd6c-471e-9bb2-f1459f41c403,"Journal Article",/article/10.1016/j.envres.2009.08.003
/reference/f9e10ca8-3521-4391-b520-57c1c1ceba40,https://data.globalchange.gov/reference/f9e10ca8-3521-4391-b520-57c1c1ceba40,f9e10ca8-3521-4391-b520-57c1c1ceba40,,EPA,,,,,,,"Natural Disasters: Extreme Heat",2015,2015,16,18977,f9e10ca8-3521-4391-b520-57c1c1ceba40,"Web Page",/webpage/40e12923-4a03-418f-94c0-3d7853499b77
/reference/fa0649b9-2a09-43a3-a2ce-b57dbe0080a7,https://data.globalchange.gov/reference/fa0649b9-2a09-43a3-a2ce-b57dbe0080a7,fa0649b9-2a09-43a3-a2ce-b57dbe0080a7,,"Beggs, Paul John; Bambrick, Hilary Jane",10.1289/ehp.7724,,1552-9924,"Environmental Health Perspectives",,915-919,"Is the global rise of asthma an early impact of anthropogenic climate change?",113,2005,0,17645,fa0649b9-2a09-43a3-a2ce-b57dbe0080a7,"Journal Article",/article/10.1289/ehp.7724
/reference/fa199f73-54e2-4fd7-8d1a-586ddaa46023,https://data.globalchange.gov/reference/fa199f73-54e2-4fd7-8d1a-586ddaa46023,fa199f73-54e2-4fd7-8d1a-586ddaa46023,,"Phuleria, Harish C.; Fine, Philip M.; Zhu, Yifang; Sioutas, Constantinos",10.1029/2004jd004626,,0148-0227,"Journal of Geophysical Research",,D07S20,"Air quality impacts of the October 2003 southern California wildfires",110,2005,0,16336,fa199f73-54e2-4fd7-8d1a-586ddaa46023,"Journal Article",/article/10.1029/2004jd004626
/reference/fa34a1b3-ceca-43db-bdc7-1618ddbe3db5,https://data.globalchange.gov/reference/fa34a1b3-ceca-43db-bdc7-1618ddbe3db5,fa34a1b3-ceca-43db-bdc7-1618ddbe3db5,,"Baranyi, Jozsef; Tamplin, Mark L",,,,"Journal of Food Protection",,1967-1971,"ComBase: A common database on microbial responses to food environments",67,2004,0,17950,fa34a1b3-ceca-43db-bdc7-1618ddbe3db5,"Journal Article",/article/pmid-15453591
/reference/fa5a0eab-7d8e-4108-9277-a5da9e48525b,https://data.globalchange.gov/reference/fa5a0eab-7d8e-4108-9277-a5da9e48525b,fa5a0eab-7d8e-4108-9277-a5da9e48525b,,"Bacon, Rendi Murphree
Kugeler, Kiersten J
Mead, Paul S",,,1545-8636,"Morbidity and Mortality Weekly Report - Surveillance Summaries",,1-9,"Surveillance for Lyme disease--United States, 1992-2006",57,2008,0,3979,fa5a0eab-7d8e-4108-9277-a5da9e48525b,"Journal Article",/article/pmid-18830214
/reference/fa5a7c06-2837-4efe-b4f0-b5046dce472a,https://data.globalchange.gov/reference/fa5a7c06-2837-4efe-b4f0-b5046dce472a,fa5a7c06-2837-4efe-b4f0-b5046dce472a,,"Wintgens, T.; Salehi, F.; Hochstrat, R.; Melin, T.",10.2166/wst.2008.799,,0273-1223,"Water Science & Technology",,99-107,"Emerging contaminants and treatment options in water recycling for indirect potable use",57,2008,0,19291,fa5a7c06-2837-4efe-b4f0-b5046dce472a,"Journal Article",/article/10.2166/wst.2008.799