uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,attrs.ISBN,attrs.Keywords,attrs.Language,attrs.Notes,"attrs.Number of Pages","attrs.Place Published",attrs.Publisher,attrs.Title,attrs.Year,attrs.\.reference_type,attrs._chapter,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/314d8a8b-002d-42ec-a7b1-2783749bdd7a,https://data.globalchange.gov/reference/314d8a8b-002d-42ec-a7b1-2783749bdd7a,314d8a8b-002d-42ec-a7b1-2783749bdd7a,"More than 50 million Americans, one out of five, suffer from hay fever, asthma, and other allergic diseases. Many of these conditions are caused by exposure to allergens in indoor environments such as the house, work, and school--where we spend as much as 98 percent of our time.Developed by medical, public health, and engineering professionals working together, this unique volume summarizes what is known about indoor allergens, how they affect human health, the magnitude of their effect on various populations, and how they can be controlled. The book addresses controversies, recommends research directions, and suggests how to assist and educate allergy patients, as well as professionals.Indoor Allergens presents a wealth of information about common indoor allergens and their varying effects, from significant hay fever to life-threatening asthma. The volume discusses sources of allergens, from fungi and dust mites to allergenic chemicals, plants, and animals, and examines practical measures for their control.Indoor Allergens discusses how the human airway and immune system respond to inhaled allergens and assesses patient testing methods, covering the importance of the patient's medical history and outlining procedures and approaches to interpretation for skin tests, in vitro diagnostic tests, and tests of patients' pulmonary function.This comprehensive and practical volume will be important to allergists and other health care providers; public health professionals; specialists in building design, construction, and maintenance; faculty and students in public health; and interested allergy patients.",IOM,10.17226/2056,978-0-309-04831-6,"Health and Medicine",English,"Ch3 Authors: Pope,A.M.;R. Patterson; Burge, H.",350,"Washington, D.C.","Institute of Medicine. The National Academies Press","Indoor Allergens: Assessing and Controlling Adverse Health Effects",1993,9,"Ch3 Authors: Pope,A.M.;R. Patterson; Burge, H.",17968,314d8a8b-002d-42ec-a7b1-2783749bdd7a,Book,/report/iom-indoor-allergens-1993
/reference/315338d2-0031-485b-b82f-ad20bc4d51a3,https://data.globalchange.gov/reference/315338d2-0031-485b-b82f-ad20bc4d51a3,315338d2-0031-485b-b82f-ad20bc4d51a3,,"Shapiro, Karen; Silver, Mary; Largier, John; Mazet, Jonna; Miller, Woutrina; Odagiri, Mitsunori; Schriewer, Alexander",10.2983/035.031.0124,,,,,,"Seattle, Washington",,"Pathogen aggregation: Understanding when, where, and why seafood contamination occurs",2012,0,,18957,315338d2-0031-485b-b82f-ad20bc4d51a3,"Journal Article",
/reference/315edcf2-107b-449d-b694-5d5a3c87ebbb,https://data.globalchange.gov/reference/315edcf2-107b-449d-b694-5d5a3c87ebbb,315edcf2-107b-449d-b694-5d5a3c87ebbb,"ABSTRACT Over the coming century, climate change is projected to increase both mean and extreme temperatures as heat waves become more frequent, intense, and long-lived. The city of Chicago has already experienced a number of severe heat waves, with a 1995 event estimated to be responsible for nearly 800 deaths. Here, future projections under SRES higher (A1FI) and lower (B1) emission scenarios are used to estimate the frequency of 1995-like heat wave events in terms of both meteorological characteristics and impacts on heat-related mortality. Before end of century, 1995-like heat waves could occur every other year on average under lower emissions and as frequently as three times per year under higher. Annual average mortality rates are projected to equal those of 1995 under lower emissions and reach twice 1995 levels under higher. An “analog city” analysis, transposing the weather conditions from the European Heat Wave of 2003 (responsible for 70,000 deaths across Europe) to the city of Chicago, estimates that if a similar heat wave were to occur over Chicago, more than ten times the annual average number of heat-related deaths could occur in just a few weeks. Climate projections indicate that an EHW-type heat wave could occur in Chicago by mid-century. Between mid- and end-of-century, there could be as many as five such events under lower, and twenty-five under higher emissions. These results highlight the importance of both preventive mitigation and responsive adaptation strategies in reducing the vulnerability of Chicago's population to climate change-induced increases in extreme heat.","Hayhoe, K.
Sheridan, S.
Kalkstein, L.
Greene, S.",10.1016/j.jglr.2009.12.009,,,,,,,,"Climate change, heat waves, and mortality projections for Chicago",2010,0,"[""Ch. 9: Human Health FINAL""]",339,315edcf2-107b-449d-b694-5d5a3c87ebbb,"Journal Article",/article/10.1016/j.jglr.2009.12.009
/reference/31960603-d459-4edb-a60c-bca016ba6839,https://data.globalchange.gov/reference/31960603-d459-4edb-a60c-bca016ba6839,31960603-d459-4edb-a60c-bca016ba6839,,"Dick, Olivia B.; San Martín, José L.; Montoya, Romeo H.; del Diego, Jorge; Zambrano, Betzana; Dayan, Gustavo H.",10.4269/ajtmh.2012.11-0770,,,,,,,,"The history of dengue outbreaks in the Americas",2012,0,,19105,31960603-d459-4edb-a60c-bca016ba6839,"Journal Article",/article/10.4269/ajtmh.2012.11-0770
/reference/31ae7e0e-a0fc-44c4-ac4f-0070aae519a6,https://data.globalchange.gov/reference/31ae7e0e-a0fc-44c4-ac4f-0070aae519a6,31ae7e0e-a0fc-44c4-ac4f-0070aae519a6,,"Jablonski, Leanne M.; Wang, Xianzhong; Curtis, Peter S.",10.1046/j.1469-8137.2002.00494.x,,,,,,,,"Plant reproduction under elevated CO2 conditions: A meta-analysis of reports on 79 crop and wild species",2002,0,Ch6,16196,31ae7e0e-a0fc-44c4-ac4f-0070aae519a6,"Journal Article",/article/10.1046/j.1469-8137.2002.00494.x
/reference/31b82903-cff5-4f29-8f21-ef6b13a0cbd2,https://data.globalchange.gov/reference/31b82903-cff5-4f29-8f21-ef6b13a0cbd2,31b82903-cff5-4f29-8f21-ef6b13a0cbd2,,"Kile, James C.; Skowronski, Stephen; Miller, Mark D.; Reissman, Stephan G.; Balaban, Victor; Klomp, Richard W.; Reissman, Dori B.; Mainzer, Hugh M.; Dannenberg, Andrew L.",10.1017/s1049023x00002259,,,,,,,,"Impact of 2003 power outages on public health and emergency response",2005,0,Ch7,16315,31b82903-cff5-4f29-8f21-ef6b13a0cbd2,"Journal Article",/article/10.1017/s1049023x00002259
/reference/31d2b0b2-0570-48fc-8605-30e9c1922dad,https://data.globalchange.gov/reference/31d2b0b2-0570-48fc-8605-30e9c1922dad,31d2b0b2-0570-48fc-8605-30e9c1922dad,,"Donner, W.; Rodríguez, H.",10.1353/sof.0.0141,,,,,,,,"Population composition, migration and inequality: The influence of demographic changes on disaster risk and vulnerability",2008,0,Ch9,17839,31d2b0b2-0570-48fc-8605-30e9c1922dad,"Journal Article",/article/10.1353/sof.0.0141
/reference/31d3eeb2-e3ba-4582-8e56-bc63b1b6c517,https://data.globalchange.gov/reference/31d3eeb2-e3ba-4582-8e56-bc63b1b6c517,31d3eeb2-e3ba-4582-8e56-bc63b1b6c517,,"Waite, Thomas; Murray, Virginia; Baker, David",10.1371/currents.dis.2b2eb9e15f9b982784938803584487f1,,,,,,,,"Carbon monoxide poisoning and flooding: Changes in risk before, during and after flooding require appropriate public health interventions",2014,0,,19151,31d3eeb2-e3ba-4582-8e56-bc63b1b6c517,"Journal Article",/article/10.1371/currents.dis.2b2eb9e15f9b982784938803584487f1
/reference/31d5b802-7b91-4580-a10c-741035c5f9f6,https://data.globalchange.gov/reference/31d5b802-7b91-4580-a10c-741035c5f9f6,31d5b802-7b91-4580-a10c-741035c5f9f6,,"Analitis, A.; Michelozzi, P.; D'Ippoliti, D.; de'Donato, F.; Menne, B.; Matthies, F.; Atkinson, R.W.; Iñiguez, C.; Basagaña, X.; Schneider, A.; Lefranc, A.; Paldy, A.; Bisanti, L.; Katsouyanni, K.",10.1097/EDE.0b013e31828ac01b,,,,,,,,"Effects of heat waves on mortality: Effect modification and confounding by air pollutants",2014,0,Ch2,19126,31d5b802-7b91-4580-a10c-741035c5f9f6,"Journal Article",/article/10.1097/EDE.0b013e31828ac01b
/reference/31f545c7-96e0-4723-9a98-c6fcb75384cb,https://data.globalchange.gov/reference/31f545c7-96e0-4723-9a98-c6fcb75384cb,31f545c7-96e0-4723-9a98-c6fcb75384cb,"BACKGROUND: In the summer of 1999, West Nile virus was recognised in the western hemisphere for the first time when it caused an epidemic of encephalitis and meningitis in the metropolitan area of New York City, NY, USA. Intensive hospital-based surveillance identified 59 cases, including seven deaths in the region. We did a household-based seroepidemiological survey to assess more clearly the public-health impact of the epidemic, its range of illness, and risk factors associated with infection. METHODS: We used cluster sampling to select a representative sample of households in an area of about 7.3 km(2) at the outbreak epicentre. All individuals aged 5 years or older were eligible for interviews and phlebotomy. Serum samples were tested for IgM and IgG antibodies specific for West Nile virus. FINDINGS: 677 individuals from 459 households participated. 19 were seropositive (weighted seroprevalence 2.6% [95% CI 1.2-4.1). Six (32%) of the seropositive individuals reported a recent febrile illness compared with 70 of 648 (11%) seronegative participants (difference 21% [0-47]). A febrile syndrome with fatigue, headache, myalgia, and arthralgia was highly associated with seropositivity (prevalence ratio 7.4 [1.5-36.6]). By extrapolation from the 59 diagnosed meningoencephalitis cases, we conservatively estimated that the New York outbreak consisted of 8200 (range 3500-13000) West Nile viral infections, including about 1700 febrile infections. INTERPRETATION: During the 1999 West Nile virus outbreak, thousands of symptomless and symptomatic West Nile viral infections probably occurred, with fewer than 1% resulting in severe neurological disease.","Mostashari, F.; Bunning, M. L.; Kitsutani, P. T.; Singer, D. A.; Nash, D.; Cooper, M. J.; Katz, N.; Liljebjelke, K. A.; Biggerstaff, B. J.; Fine, A. D.; Layton, M. C.; Mullin, S. M.; Johnson, A. J.; Martin, D. A.; Hayes, E. B.; Campbell, G. L.",10.1016/S0140-6736(01)05480-0,,"Adolescent; Adult; Aged; Animals; Antibodies, Viral/blood; Attitude to Health; Birds; Child; *Disease Outbreaks; Female; Humans; Male; Meningoencephalitis/etiology; Middle Aged; New York City/epidemiology; Prevalence; Seroepidemiologic Studies; West Nile Fever/complications/*epidemiology/physiopathology",,"Mostashari, F Bunning, M L Kitsutani, P T Singer, D A Nash, D Cooper, M J Katz, N Liljebjelke, K A Biggerstaff, B J Fine, A D Layton, M C Mullin, S M Johnson, A J Martin, D A Hayes, E B Campbell, G L eng Comparative Study England 2001/08/11 10:00 Lancet. 2001 Jul 28;358(9278):261-4.",,,,"Epidemic West Nile encephalitis, New York, 1999: Results of a household-based seroepidemiological survey",2001,0,,18016,31f545c7-96e0-4723-9a98-c6fcb75384cb,"Journal Article",/article/10.1016/S0140-6736(01)05480-0
/reference/31f6daeb-071e-47d4-88d8-18d237a9c5f1,https://data.globalchange.gov/reference/31f6daeb-071e-47d4-88d8-18d237a9c5f1,31f6daeb-071e-47d4-88d8-18d237a9c5f1,,CDC,,,,,,,"Atlanta, GA","Centers for Disease Control and Prevention","Lyme Disease: Preventing Tick Bites on People",2015,16,,19104,31f6daeb-071e-47d4-88d8-18d237a9c5f1,"Web Page",/webpage/e28b5d6e-71f0-4afe-a361-ff259895bb64
/reference/325e3633-9e81-4b3f-b610-5cc44d92fbab,https://data.globalchange.gov/reference/325e3633-9e81-4b3f-b610-5cc44d92fbab,325e3633-9e81-4b3f-b610-5cc44d92fbab,,FDA,,,,,,,,"U.S. Department of Health and Human Services, Food and Drug Administration, Center for Food Safety and Applied Nutrition","Quantitative Risk Assessment on the Public Health Impact of Pathogenic Vibrio parahaemolyticus in Raw Oysters",2005,10,,19041,325e3633-9e81-4b3f-b610-5cc44d92fbab,Report,/report/usda-pathogens-2005
/reference/327c40f8-4ed5-492c-9a6b-af56d2828e17,https://data.globalchange.gov/reference/327c40f8-4ed5-492c-9a6b-af56d2828e17,327c40f8-4ed5-492c-9a6b-af56d2828e17,,"Fresque-Baxter, J.A.; Armitage, D.",10.1002/wcc.164,,,,,,,,"Place identity and climate change adaptation: A synthesis and framework for understanding",2012,0,,13456,327c40f8-4ed5-492c-9a6b-af56d2828e17,"Journal Article",/article/10.1002/wcc.164
/reference/32a621bf-5225-47a3-b7df-559443b3486e,https://data.globalchange.gov/reference/32a621bf-5225-47a3-b7df-559443b3486e,32a621bf-5225-47a3-b7df-559443b3486e,,"Cozzetto, K.
Chief, K.
Dittmer, K.
Brubaker, M.
Gough, R.
Souza, K.
Ettawageshik, F.
Wotkyns, S.
Opitz-Stapleton, S.
Duren, S.
Chavan, P.",10.1007/s10584-013-0852-y,,,English,,,,,"Climate change impacts on the water resources of American Indians and Alaska Natives in the U.S",2013,0,"[""Ch. 20: Southwest FINAL""]",4339,32a621bf-5225-47a3-b7df-559443b3486e,"Journal Article",/article/10.1007/s10584-013-0852-y
/reference/32af3968-aefd-4a28-810f-aed7277d6f3a,https://data.globalchange.gov/reference/32af3968-aefd-4a28-810f-aed7277d6f3a,32af3968-aefd-4a28-810f-aed7277d6f3a,,"Kalkstein, L.S.
Greene, S.
Mills, D.M.
Samenow, J.",10.1007/s11069-010-9552-3,,,,,,,,"An evaluation of the progress in reducing heat-related human mortality in major U.S. cities",2011,0,"[""Ch. 9: Human Health FINAL"",""Overview""]",660,32af3968-aefd-4a28-810f-aed7277d6f3a,"Journal Article",/article/10.1007/s11069-010-9552-3
/reference/32be7b58-9a19-4710-ad79-cea600732146,https://data.globalchange.gov/reference/32be7b58-9a19-4710-ad79-cea600732146,32be7b58-9a19-4710-ad79-cea600732146,,"Alavanja, Michael C. R.; Ross, Matthew K.; Bonner, Matthew R.",10.3322/caac.21170,,,,,,,,"Increased cancer burden among pesticide applicators and others due to pesticide exposure",2013,0,Ch6,17895,32be7b58-9a19-4710-ad79-cea600732146,"Journal Article",/article/10.3322/caac.21170
/reference/32ff86a3-d393-42dd-acd9-6c1e9bd9dc3e,https://data.globalchange.gov/reference/32ff86a3-d393-42dd-acd9-6c1e9bd9dc3e,32ff86a3-d393-42dd-acd9-6c1e9bd9dc3e,"From 1937 until 1999, West Nile virus (WNV) garnered scant medical attention as the cause of febrile illness and sporadic encephalitis in parts of Africa, Asia, and Europe. After the surprising detection of WNV in New York City in 1999, the virus has spread dramatically westward across the United States, southward into Central America and the Caribbean, and northward into Canada, resulting in the largest epidemics of neuroinvasive WNV disease ever reported. From 1999 to 2004, >7,000 neuroinvasive WNV disease cases were reported in the United States. In 2002, WNV transmission through blood transfusion and organ transplantation was described for the first time, intrauterine transmission was first documented, and possible transmission through breastfeeding was reported. This review highlights new information regarding the epidemiology and dynamics of WNV transmission, providing a new platform for further research into preventing and controlling WNV disease.","Hayes, E. B.; Komar, N.; Nasci, R. S.; Montgomery, S.; O'Leary, D. R.; Campbell, G. L.",10.3201/eid1108.050289a,,"Adolescent; Adult; Aged; Aged, 80 and over; Animals; Child; Culicidae/*virology; Disease Outbreaks/*prevention & control; Female; Humans; Insect Vectors/*virology; Male; Middle Aged; United States/epidemiology; West Nile Fever/*epidemiology/prevention & control/*transmission/virology; West Nile virus/*growth & development",,"Hayes, Edward B Komar, Nicholas Nasci, Roger S Montgomery, Susan P O'Leary, Daniel R Campbell, Grant L eng Review 2005/08/17 09:00 Emerg Infect Dis. 2005 Aug;11(8):1167-73.",,,,"Epidemiology and transmission dynamics of West Nile virus disease",2005,0,,18005,32ff86a3-d393-42dd-acd9-6c1e9bd9dc3e,"Journal Article",/article/10.3201/eid1108.050289a
/reference/3302738c-9f7e-46da-8b72-4cb833c37080,https://data.globalchange.gov/reference/3302738c-9f7e-46da-8b72-4cb833c37080,3302738c-9f7e-46da-8b72-4cb833c37080,,"Youssouf, H.; Liousse, C.; Roblou, L.; Assamoi, E. M.; Salonen, R. O.; Maesano, C.; Banerjee, S.; Annesi-Maesano, I.",10.1016/j.atmosenv.2014.07.041,,,,,,,,"Quantifying wildfires exposure for investigating health-related effects",2014,0,Ch7,17816,3302738c-9f7e-46da-8b72-4cb833c37080,"Journal Article",/article/10.1016/j.atmosenv.2014.07.041
/reference/3325ef64-347b-4c33-9289-9e05e905dcbe,https://data.globalchange.gov/reference/3325ef64-347b-4c33-9289-9e05e905dcbe,3325ef64-347b-4c33-9289-9e05e905dcbe,,"Moore, S.K.
Trainer, V.L.
Mantua, N.J.
Parker, M.S.
Laws, E.A.
Backer, L.C.
Fleming, L.E.",10.1186/1476-069X-7-S2-S4,,,,,,,,"Impacts of climate variability and future climate change on harmful algal blooms and human health",2008,0,"[""Ch. 9: Human Health FINAL"",""RG 2 Southeast"",""Ch. 17: Southeast and Caribbean FINAL""]",2079,3325ef64-347b-4c33-9289-9e05e905dcbe,"Journal Article",/article/10.1186/1476-069X-7-S2-S4
/reference/33293de8-78b3-42e5-8ce9-a1e663fd5eb2,https://data.globalchange.gov/reference/33293de8-78b3-42e5-8ce9-a1e663fd5eb2,33293de8-78b3-42e5-8ce9-a1e663fd5eb2,,"Fremaux, B.; Boa, T.; Yost, C. K.",10.1128/aem.00110-10,,,,,,,,"Quantitative real-time PCR assays for sensitive detection of Canada goose-specific fecal pollution in water sources",2010,0,Ch5,16143,33293de8-78b3-42e5-8ce9-a1e663fd5eb2,"Journal Article",/article/10.1128/aem.00110-10
/reference/333f7d3b-b136-4589-a544-b6bc170d26d6,https://data.globalchange.gov/reference/333f7d3b-b136-4589-a544-b6bc170d26d6,333f7d3b-b136-4589-a544-b6bc170d26d6,,"Furey, Sinéad; Strugnell, Christopher; McIlveen, Heather",10.1023/a:1015218502547,,,,,,,,"An investigation of the potential existence of “food deserts” in rural and urban areas of Northern Ireland",2001,0,Ch6,17905,333f7d3b-b136-4589-a544-b6bc170d26d6,"Journal Article",/article/10.1023/a:1015218502547
/reference/333fba7e-9f66-4c9e-9ff9-7eeddc6b49c7,https://data.globalchange.gov/reference/333fba7e-9f66-4c9e-9ff9-7eeddc6b49c7,333fba7e-9f66-4c9e-9ff9-7eeddc6b49c7,,"Wong, Mitchell D.; Shapiro, Martin F.; Boscardin, W.John; Ettner, Susan L.",10.1056/NEJMsa012979,,,,,,,,"Contribution of major diseases to disparities in mortality",2002,0,,19263,333fba7e-9f66-4c9e-9ff9-7eeddc6b49c7,"Journal Article",/article/10.1056/NEJMsa012979
/reference/33bdc93c-e333-4694-af8e-f982e9396ef8,https://data.globalchange.gov/reference/33bdc93c-e333-4694-af8e-f982e9396ef8,33bdc93c-e333-4694-af8e-f982e9396ef8,,"Conlon, Kathryn C.; Rajkovich, Nicholas B.; White-Newsome, Jalonne L.; Larsen, Larissa; O’Neill, Marie S.",10.1016/j.maturitas.2011.04.004,,,,,,,,"Preventing cold-related morbidity and mortality in a changing climate",2011,0,Ch7,17771,33bdc93c-e333-4694-af8e-f982e9396ef8,"Journal Article",/article/10.1016/j.maturitas.2011.04.004
/reference/33f66375-1765-4432-a91a-153c86d131ba,https://data.globalchange.gov/reference/33f66375-1765-4432-a91a-153c86d131ba,33f66375-1765-4432-a91a-153c86d131ba,,"Conti, Susanna; Masocco, Maria; Meli, Paola; Minelli, Giada; Palummeri, Ernesto; Solimini, Renata; Toccaceli, Virgilia; Vichi, Monica",10.1016/j.envres.2006.06.003,,,,,,,,"General and specific mortality among the elderly during the 2003 heat wave in Genoa (Italy)",2007,0,Ch9,17832,33f66375-1765-4432-a91a-153c86d131ba,"Journal Article",/article/10.1016/j.envres.2006.06.003
/reference/33fdc1b0-6302-43a5-87f3-ae2fa2603fff,https://data.globalchange.gov/reference/33fdc1b0-6302-43a5-87f3-ae2fa2603fff,33fdc1b0-6302-43a5-87f3-ae2fa2603fff,,"Kosacz, N.M.; Punturieri, A.; Croxton, T.L.; Ndenecho, M.N.; Kiley, J.P.; Weinmann, G.G.; Wheaton, A. G.; Ford, E.S.; Presley-Cantrell, L.R.; Croft, J.B.; Giles, W.H.",,,,,,,,,"Chronic obstructive pulmonary disease among adults - United States, 2011",2012,0,,19347,33fdc1b0-6302-43a5-87f3-ae2fa2603fff,"Journal Article",/journal/morbidity-mortality-weekly-report