---
- attrs:
Author: 'Daniel, Jo Sias; Jacobs, Jennifer M.; Miller, Heather; Stoner, Anne; Crowley, Jillian; Khalkhali, Masoumeh; Thomas, Ashley'
DOI: 10.1080/14680629.2017.1302355
ISSN: 1468-0629
Journal: Road Materials and Pavement Design
Pages: 1-21
Publisher: Taylor & Francis
Title: 'Climate change: Potential impacts on frost–thaw conditions and seasonal load restriction timing for low-volume roadways'
Year: 2017
_record_number: 24543
_uuid: 0b40389d-5528-4924-983d-d803f66b26d8
reftype: Journal Article
child_publication: /article/10.1080/14680629.2017.1302355
href: https://data.globalchange.gov/reference/0b40389d-5528-4924-983d-d803f66b26d8.yaml
identifier: 0b40389d-5528-4924-983d-d803f66b26d8
uri: /reference/0b40389d-5528-4924-983d-d803f66b26d8
- attrs:
.reference_type: 0
Author: "Khelifa, A.\rGarrow, L.\rHiggins, M.\rMeyer, M."
DOI: 10.1061/(ASCE)IS.1943-555X.0000109
ISSN: 1076-0342
Issue: 2
Journal: Journal of Infrastructure Systems
Pages: 138-146
Title: 'Impacts of climate change on scour-vulnerable bridges: Assessment based on HYRISK'
Volume: 19
Year: 2013
_chapter: '["Ch. 5: Transportation FINAL"]'
_record_number: 3930
_uuid: 0d131f9a-8a41-4607-808d-1514525c668e
reftype: Journal Article
child_publication: /article/10.1061/(ASCE)IS.1943-555X.0000109
href: https://data.globalchange.gov/reference/0d131f9a-8a41-4607-808d-1514525c668e.yaml
identifier: 0d131f9a-8a41-4607-808d-1514525c668e
uri: /reference/0d131f9a-8a41-4607-808d-1514525c668e
- attrs:
.reference_type: 10
Author: 'Cambridge Systematics Inc.,; ICF International,'
Institution: 'City of Austin, Office of Sustainability'
Pages: various
Place Published: 'Austin, TX'
Title: Central Texas extreme weather and climate change vulnerability assessment of regional transportation infrastructure
URL: https://austintexas.gov/sites/default/files/files/CAMPO_Extreme_Weather_Vulnerability_Assessment_FINAL.pdf
Year: 2015
_record_number: 24602
_uuid: 14204bc4-38ef-4f94-8bc3-5e3cb561a676
reftype: Report
child_publication: /report/central-texas-extreme-weather-climate-change-vulnerability-assessment-regional-transportation-infrastructure
href: https://data.globalchange.gov/reference/14204bc4-38ef-4f94-8bc3-5e3cb561a676.yaml
identifier: 14204bc4-38ef-4f94-8bc3-5e3cb561a676
uri: /reference/14204bc4-38ef-4f94-8bc3-5e3cb561a676
- attrs:
.reference_type: 0
Author: 'Archfield, S. A.; Hirsch, R. M.; Viglione, A.; Blöschl, G.'
DOI: 10.1002/2016GL070590
ISSN: 1944-8007
Issue: 19
Journal: Geophysical Research Letters
Keywords: floods; trends; climate; 1616 Climate variability; 1821 Floods; 1860 Streamflow; 1807 Climate impacts; 1833 Hydroclimatology
Pages: '10,232-10,239'
Title: Fragmented patterns of flood change across the United States
Volume: 43
Year: 2016
_record_number: 20983
_uuid: 22b8177d-1789-4177-90d5-2f425b344b46
reftype: Journal Article
child_publication: /article/10.1002/2016GL070590
href: https://data.globalchange.gov/reference/22b8177d-1789-4177-90d5-2f425b344b46.yaml
identifier: 22b8177d-1789-4177-90d5-2f425b344b46
uri: /reference/22b8177d-1789-4177-90d5-2f425b344b46
- attrs:
.reference_type: 10
Author: 'U.S. Department of Transportation,'
Institution: U.S. Department of Transportation
Pages: 22
Place Published: 'Washington, DC'
Title: 'U.S. Department of Transportation climate adaptation plan: Ensuring transportation infrastructure and system resilience'
URL: https://www.transportation.gov/sites/dot.dev/files/docs/DOT%20Adaptation%20Plan.pdf
Year: 2014
_record_number: 24569
_uuid: 295090ab-21ab-488e-b320-314adb122c2c
reftype: Report
child_publication: /report/us-department-transportation-climate-adaptation-plan-ensuring-transportation-infrastructure-system-resilience
href: https://data.globalchange.gov/reference/295090ab-21ab-488e-b320-314adb122c2c.yaml
identifier: 295090ab-21ab-488e-b320-314adb122c2c
uri: /reference/295090ab-21ab-488e-b320-314adb122c2c
- attrs:
.reference_type: 7
Author: 'Vose, R.S.; D.R. Easterling; K.E. Kunkel; A.N. LeGrande; M.F. Wehner'
Book Title: 'Climate Science Special Report: Fourth National Climate Assessment, Volume I'
DOI: 10.7930/J0N29V45
Editor: 'Wuebbles, D.J.; D.W. Fahey; K.A. Hibbard; D.J. Dokken; B.C. Stewart; T.K. Maycock'
Pages: 185-206
Place Published: 'Washington, DC, USA'
Publisher: U.S. Global Change Research Program
Title: Temperature Changes in the United States
Year: 2017
_record_number: 21564
_uuid: 29960c69-6168-4fb0-9af0-d50bdd91acd3
reftype: Book Section
child_publication: /report/climate-science-special-report/chapter/temperature-change
href: https://data.globalchange.gov/reference/29960c69-6168-4fb0-9af0-d50bdd91acd3.yaml
identifier: 29960c69-6168-4fb0-9af0-d50bdd91acd3
uri: /reference/29960c69-6168-4fb0-9af0-d50bdd91acd3
- attrs:
Abstract: 'With 80 % of world trade carried by sea, seaports provide crucial linkages in global supply-chains and are essential for the ability of all countries to access global markets. Seaports are likely to be affected directly and indirectly by climatic changes, with broader implications for international trade and development. Due to their coastal location, seaports are particularly vulnerable to extreme weather events associated with increasing sea levels and tropical storm activity, as illustrated by hurricane “Sandy”. In view of their strategic role as part of the globalized trading system, adapting ports in different parts of the world to the impacts of climate change is of considerable importance. Reflecting the views of a diverse group of stakeholders with expertise in climate science, engineering, economics, policy, and port management, this essay highlights the climate change challenge for ports and suggests a way forward through the adoption of some initial measures. These include both “soft” and “hard” adaptations that may be spearheaded by individual port entities, but will require collaboration and support from a broad range of public and private sector stakeholders and from society at large. In particular, the essay highlights a need to shift to more holistic planning, investment and operation.'
Author: 'Becker, Austin H.; Acciaro, Michele; Asariotis, Regina; Cabrera, Edgard; Cretegny, Laurent; Crist, Philippe; Esteban, Miguel; Mather, Andrew; Messner, Steve; Naruse, Susumu; Ng, Adolf K. Y.; Rahmstorf, Stefan; Savonis, Michael; Song, Dong-Wook; Stenek, Vladimir; Velegrakis, Adonis F.'
DOI: 10.1007/s10584-013-0843-z
Date: October 01
ISSN: 1573-1480
Issue: 4
Journal: Climatic Change
Pages: 683-695
Title: 'A note on climate change adaptation for seaports: A challenge for global ports, a challenge for global society'
Type of Article: journal article
Volume: 120
Year: 2013
_record_number: 24534
_uuid: 34d996c7-e76f-455d-b975-1dc8693fff76
reftype: Journal Article
child_publication: /article/10.1007/s10584-013-0843-z
href: https://data.globalchange.gov/reference/34d996c7-e76f-455d-b975-1dc8693fff76.yaml
identifier: 34d996c7-e76f-455d-b975-1dc8693fff76
uri: /reference/34d996c7-e76f-455d-b975-1dc8693fff76
- attrs:
.reference_type: 1
Accession Number: 222
Author: 'NRC,'
ISBN: 978-0-309-11306-9
Number of Pages: 280
Place Published: 'Washington, D.C.'
Publisher: 'Transportation Research Board, National Research Council, Committee on Twenty-First Century Systems Agriculture. The National Academies Press'
Reviewer: 351fbf4f-480e-450e-9cc3-9cecd429f564
Title: Potential Impacts of Climate Change on U.S. Transportation. Special Report 290
URL: http://www.nap.edu/catalog.php?record_id=12179
Year: 2008
_chapter: '["Ch. 5: Transportation FINAL"]'
_record_number: 2291
_uuid: 351fbf4f-480e-450e-9cc3-9cecd429f564
reftype: Book
child_publication: /report/nrc-transportationresearchboard-specialreport290
href: https://data.globalchange.gov/reference/351fbf4f-480e-450e-9cc3-9cecd429f564.yaml
identifier: 351fbf4f-480e-450e-9cc3-9cecd429f564
uri: /reference/351fbf4f-480e-450e-9cc3-9cecd429f564
- attrs:
.reference_type: 10
Author: 'Stewart, Stacy R.'
Institution: National Hurricane Center
Pages: 96
Place Published: 'Miami, FL'
Series Volume: National Hurricane Center Tropical Cyclone Report AL142016
Title: Hurricane Matthew
URL: https://www.nhc.noaa.gov/data/tcr/AL142016_Matthew.pdf
Year: 2017
_record_number: 24573
_uuid: 3f0c9740-aae2-4250-8f2a-edef68695594
reftype: Report
child_publication: /report/hurricane-matthew
href: https://data.globalchange.gov/reference/3f0c9740-aae2-4250-8f2a-edef68695594.yaml
identifier: 3f0c9740-aae2-4250-8f2a-edef68695594
uri: /reference/3f0c9740-aae2-4250-8f2a-edef68695594
- attrs:
.reference_type: 10
Author: 'Winguth, Arne; Jun Hak Lee; Yekang Ko'
Institution: North Central Texas Council of Governments (NCTCOG) and Federal Highway Administration
Pages: 53
Place Published: 'Arlington, TX, and Washington, DC'
Title: Climate change/extreme weather vulnerability and risk assessment for transportation infrastructure in Dallas and Tarrant counties
URL: https://www.fhwa.dot.gov/environment/sustainability/resilience/pilots/2013-2015_pilots/nctcog/final_report/index.cfm
Year: 2015
_record_number: 24567
_uuid: 3fed1df6-1ec6-4f8b-a3b7-6bb715cee3ee
reftype: Report
child_publication: /report/climate-changeextreme-weather-vulnerability-risk-assessment-transportation-infrastructure-dallas-tarrant-counties
href: https://data.globalchange.gov/reference/3fed1df6-1ec6-4f8b-a3b7-6bb715cee3ee.yaml
identifier: 3fed1df6-1ec6-4f8b-a3b7-6bb715cee3ee
uri: /reference/3fed1df6-1ec6-4f8b-a3b7-6bb715cee3ee
- attrs:
.reference_type: 10
Author: 'Moser, Hans; Peter J. Hawkes; Øivind A. Arntsen; Pierre Gaufres; F. Stephan Mai; Gernot Pauli; Kathleen D. White'
Institution: 'PIANC Secretariat, EnviCom—Task Group 3'
Pages: 58
Place Published: 'Brussels, Belgium'
Title: 'Waterborne transport, ports and waterways: A review of climate change drivers, impacts, responses and mitigation'
URL: http://www.pianc.org/downloads/envicom/envicom-free-tg3.pdf
Year: 2008
_record_number: 24575
_uuid: 488a66dd-d4b8-4675-b48a-e7f4b9a60833
reftype: Report
child_publication: /report/waterborne-transport-ports-waterways-review-climate-change-drivers-impacts-responses-mitigation
href: https://data.globalchange.gov/reference/488a66dd-d4b8-4675-b48a-e7f4b9a60833.yaml
identifier: 488a66dd-d4b8-4675-b48a-e7f4b9a60833
uri: /reference/488a66dd-d4b8-4675-b48a-e7f4b9a60833
- attrs:
.reference_type: 7
Author: "Peterson, Thomas C.\rMcGuirk, Marjorie\rHouston, Tamara G.\rHorvitz, Andrew H.\rWehner, Michael F."
Book Title: Potential Impacts of Climate Change on U.S. Transportation. Special Report 290. Committee on Twenty-First Century Systems Agriculture
Pages: 90
Place Published: 'Washington, D.C.'
Publisher: 'Transportation Research Board, National Research Council'
Reviewer: 50d04578-d18d-4401-9b14-87b507319741
Series Volume: TRB Special Report 290
Title: Climate Variability and Change with Implications for Transportation
URL: http://onlinepubs.trb.org/onlinepubs/sr/sr290Many.pdf
Year: 2006
_chapter: '["Ch. 5: Transportation FINAL"]'
_record_number: 3928
_uuid: 50d04578-d18d-4401-9b14-87b507319741
reftype: Book Section
child_publication: /report/trb-clim-2006
href: https://data.globalchange.gov/reference/50d04578-d18d-4401-9b14-87b507319741.yaml
identifier: 50d04578-d18d-4401-9b14-87b507319741
uri: /reference/50d04578-d18d-4401-9b14-87b507319741
- attrs:
Abstract: 'It may no longer be reasonable to model streamflow as a stationary process, yet nearly all existing water resource planning methods assume that historical streamflows will remain unchanged in the future. In the few instances when trends in extreme events have been considered, most recent work has focused on the influence of climate change, alone. This study takes a different approach by exploring trends in floods in watersheds which are subject to a very broad range of anthropogenic influences, not limited to climate change. A simple statistical model is developed which can both mimic observed flood trends as well as the frequency of floods in a nonstationary world. This model is used to explore a range of flood planning issues in a nonstationary world. A decadal flood magnification factor is defined as the ratio of the T-year flood in a decade to the T-year flood today. Using historical flood data across the United States we obtain flood magnification factors in excess of 2-5 for many regions of the United States, particularly those regions with higher population densities. Similarly, we compute recurrence reduction factors which indicate that what is now considered the 100-year flood, may become much more common in many watersheds. Nonstationarity in floods can result from a variety of anthropogenic processes including changes in land use, climate, and water use, with likely interactions among those processes making it very difficult to attribute trends to a particular cause.'
Author: 'Vogel, Richard M.; Yaindl, Chad; Walter, Meghan'
DOI: 10.1111/j.1752-1688.2011.00541.x
Date: //
Issue: 3
Journal: JAWRA Journal of the American Water Resources Association
Keywords: land-use/land-cover change; trend analysis; urbanization; runoff; flooding; rivers/streams
Pages: 464-474
Title: 'Nonstationarity: Flood magnification and recurrence reduction factors in the United States'
Volume: 47
Year: 2011
_record_number: 26044
_uuid: 68583faf-24fb-47e8-b1b5-d066cee5d485
reftype: Journal Article
child_publication: /article/10.1111/j.1752-1688.2011.00541.x
href: https://data.globalchange.gov/reference/68583faf-24fb-47e8-b1b5-d066cee5d485.yaml
identifier: 68583faf-24fb-47e8-b1b5-d066cee5d485
uri: /reference/68583faf-24fb-47e8-b1b5-d066cee5d485
- attrs:
.reference_type: 9
Abstract: 'TRB’s National Cooperative Highway Research Program (NCHRP) Synthesis 454: Response to Extreme Weather Impacts on Transportation Systems examines eight recent cases of extreme weather in the United States from the perspectives of transportation operations, maintenance, design, construction, planning, communications, interagency coordination, and data and knowledge management.Appendices C-H are only available in the PDF version of the report.'
Author: 'Transportation Research Board,; National Academies of Sciences Engineering and Medicine,'
DOI: 10.17226/22376
Keywords: Transportation and Infrastructure
Language: English
Place Published: 'Washington, DC'
Publisher: The National Academies Press
Series Editor: 'Baglin, Chris'
Title: Response to Extreme Weather Impacts on Transportation Systems
Year: 2014
_record_number: 26049
_uuid: 7088ab60-2e3b-484f-811e-3590848901e6
reftype: Book
child_publication: /book/response-extreme-weather-impacts-on-transportation-systems
href: https://data.globalchange.gov/reference/7088ab60-2e3b-484f-811e-3590848901e6.yaml
identifier: 7088ab60-2e3b-484f-811e-3590848901e6
uri: /reference/7088ab60-2e3b-484f-811e-3590848901e6
- attrs:
.reference_type: 10
Author: 'FHWA,'
Institution: Federal Highway Administration (FHWA)
Pages: 119
Report Number: FHWA-HEP-18-021
Title: 'Wildfire and precipitation impacts to a culvert: US 34 at Canyon Cove Lane, Colorado (TEACR Engineering Assessment)'
URL: https://www.fhwa.dot.gov/environment/sustainability/resilience/ongoing_and_current_research/teacr/colorado/fhwahep18021.pdf
Year: 2017
_record_number: 26056
_uuid: 7ada6479-bc35-4d04-8916-638e6a6ffbbe
reftype: Report
child_publication: /report/wildfire-precipitation-impacts-culvert-us-34-at-canyon-cove-lane-colorado-teacr-engineering-assessment
href: https://data.globalchange.gov/reference/7ada6479-bc35-4d04-8916-638e6a6ffbbe.yaml
identifier: 7ada6479-bc35-4d04-8916-638e6a6ffbbe
uri: /reference/7ada6479-bc35-4d04-8916-638e6a6ffbbe
- attrs:
.reference_type: 10
Author: 'Masterson, John P.; Pope, Jason P.; Fienen, Michael N.; Monti, Jack, Jr.; Nardi, Mark R.; Finkelstein, Jason S. '
DOI: 10.3133/pp1829
Institution: US Geological Survey
Notes: 'ISBN: 978-1-4113-4057-2'
Pages: 76
Place Published: 'Reston, VA'
Series Volume: USGS Professional Paper 1829
Title: 'Assessment of Groundwater Availability in the Northern Atlantic Coastal Plain Aquifer System from Long Island, New York, to North Carolina'
Year: 2016
_record_number: 24549
_uuid: 823d4e36-015c-4288-92e9-833a8c9d6ce0
reftype: Report
child_publication: /report/assessment-groundwater-availability-northern-atlantic-coastal-plain-aquifer-system-long-island-new-york-north-carolina
href: https://data.globalchange.gov/reference/823d4e36-015c-4288-92e9-833a8c9d6ce0.yaml
identifier: 823d4e36-015c-4288-92e9-833a8c9d6ce0
uri: /reference/823d4e36-015c-4288-92e9-833a8c9d6ce0
- attrs:
Author: 'Villarini, Gabriele; Smith, James A.; Serinaldi, Francesco; Bales, Jerad; Bates, Paul D.; Krajewski, Witold F.'
DOI: 10.1016/j.advwatres.2009.05.003
Date: 2009/08/01/
ISSN: 0309-1708
Issue: 8
Journal: Advances in Water Resources
Keywords: Nonstationarity; Urbanization; GAMLSS; Flood frequency analysis
Pages: 1255-1266
Title: Flood frequency analysis for nonstationary annual peak records in an urban drainage basin
Volume: 32
Year: 2009
_record_number: 26043
_uuid: 84167440-9325-4f42-8bc1-e4261323c584
reftype: Journal Article
child_publication: /article/10.1016/j.advwatres.2009.05.003
href: https://data.globalchange.gov/reference/84167440-9325-4f42-8bc1-e4261323c584.yaml
identifier: 84167440-9325-4f42-8bc1-e4261323c584
uri: /reference/84167440-9325-4f42-8bc1-e4261323c584
- attrs:
Author: 'Chinowsky, Paul; Helman, Jacob; Gulati, Sahil; Neumann, James; Martinich, Jeremy'
DOI: 10.1016/j.tranpol.2017.05.007
Date: 2017/06/16/
ISSN: 0967-070X
Journal: Transport Policy
Title: Impacts of climate change on operation of the US rail network
Year: 2017
_record_number: 24539
_uuid: 88a0560f-7655-43aa-8f5b-e6fd9a4a0818
reftype: Journal Article
child_publication: /article/10.1016/j.tranpol.2017.05.007
href: https://data.globalchange.gov/reference/88a0560f-7655-43aa-8f5b-e6fd9a4a0818.yaml
identifier: 88a0560f-7655-43aa-8f5b-e6fd9a4a0818
uri: /reference/88a0560f-7655-43aa-8f5b-e6fd9a4a0818
- attrs:
Abstract: 'Temperature and airport elevation significantly influence the maximum allowable takeoff weight of an aircraft by changing the surface air density and thus the lift produced at a given speed. For a given runway length, airport elevation, and aircraft type, there is a temperature threshold above which the airplane cannot take off at its maximum weight and thus must be weight restricted. The number of summer days necessitating weight restriction has increased since 1980 along with the observed increase in surface temperature. Climate change is projected to increase mean temperatures at all airports and to significantly increase the frequency and severity of extreme heat events at some. These changes will negatively affect aircraft performance, leading to increased weight restrictions, especially at airports with short runways and little room to expand. For a Boeing 737-800 aircraft, it was found that the number of weight-restriction days between May and September will increase by 50%–200% at four major airports in the United States by 2050–70 under the RCP8.5 emissions scenario. These performance reductions may have a negative economic effect on the airline industry. Increased weight restrictions have previously been identified as potential impacts of climate change, but this study is the first to quantify the effect of higher temperatures on commercial aviation. Planning for changes in extreme heat events will help the aviation industry to reduce its vulnerability to this aspect of climate change.'
Author: 'Coffel, E.; R. Horton'
DOI: 10.1175/wcas-d-14-00026.1
Issue: 1
Journal: 'Weather, Climate, and Society'
Keywords: 'Extreme events,Climate change,Economic value,Societal impacts'
Pages: 94-102
Title: Climate change and the impact of extreme temperatures on aviation
Volume: 7
Year: 2015
_record_number: 24541
_uuid: 8acf6392-b55f-4fbe-a660-1777e06b6607
reftype: Journal Article
child_publication: /article/10.1175/wcas-d-14-00026.1
href: https://data.globalchange.gov/reference/8acf6392-b55f-4fbe-a660-1777e06b6607.yaml
identifier: 8acf6392-b55f-4fbe-a660-1777e06b6607
uri: /reference/8acf6392-b55f-4fbe-a660-1777e06b6607
- attrs:
.reference_type: 1
Author: 'CCSP,'
Editor: 'Savonis, M.J.; Burkett, V.R.; Potter, J.R.'
Number of Pages: 445
Place Published: 'Washington, D.C.'
Publisher: U.S. Department of Transportation
Reviewer: 8dbd70c4-cd8c-4dce-b27c-bfb412901e58
Title: 'Impacts of Climate Change and Variability on Transportation Systems and Infrastructure: Gulf Study, Phase I. A Report by the U.S. Climate Change Science Program and the Subcommittee on Global Change Research. Final Report of Synthesis and Assessment Product 4.7'
URL: http://downloads.globalchange.gov/sap/sap4-7/sap4-7-final-all.pdf
Year: 2008
_chapter: '["Ch. 5: Transportation FINAL"]'
_record_number: 902
_uuid: 8dbd70c4-cd8c-4dce-b27c-bfb412901e58
reftype: Book
child_publication: /report/ccsp-sap-4_7-2008
href: https://data.globalchange.gov/reference/8dbd70c4-cd8c-4dce-b27c-bfb412901e58.yaml
identifier: 8dbd70c4-cd8c-4dce-b27c-bfb412901e58
uri: /reference/8dbd70c4-cd8c-4dce-b27c-bfb412901e58
- attrs:
.publisher: 'Wiley Periodicals, Inc.'
.reference_type: 0
Author: 'Sweet, William V.; Park, Joseph'
DOI: 10.1002/2014EF000272
ISSN: 2328-4277
Issue: 12
Journal: Earth’s Future
Keywords: sea level rise; coastal inundation; nuisance flooding; 1641 Sea level change; 1630 Impacts of global change
Pages: 579-600
Title: 'From the extreme to the mean: Acceleration and tipping points of coastal inundation from sea level rise'
Volume: 2
Year: 2014
_record_number: 19458
_uuid: 91aeffdb-e82f-4645-abe9-f6ea6909e979
reftype: Journal Article
child_publication: /article/10.1002/2014EF000272
href: https://data.globalchange.gov/reference/91aeffdb-e82f-4645-abe9-f6ea6909e979.yaml
identifier: 91aeffdb-e82f-4645-abe9-f6ea6909e979
uri: /reference/91aeffdb-e82f-4645-abe9-f6ea6909e979
- attrs:
.reference_type: 7
Author: 'Wehner, M.F.; J.R. Arnold; T. Knutson; K.E. Kunkel; A.N. LeGrande'
Book Title: 'Climate Science Special Report: Fourth National Climate Assessment, Volume I'
DOI: 10.7930/J0CJ8BNN
Editor: 'Wuebbles, D.J.; D.W. Fahey; K.A. Hibbard; D.J. Dokken; B.C. Stewart; T.K. Maycock'
Pages: 231-256
Place Published: 'Washington, DC, USA'
Publisher: U.S. Global Change Research Program
Title: 'Droughts, Floods, and Wildfires'
Year: 2017
_record_number: 21566
_uuid: a29b612b-8c28-4c93-9c18-19314babce89
reftype: Book Section
child_publication: /report/climate-science-special-report/chapter/drought-floods-hydrology
href: https://data.globalchange.gov/reference/a29b612b-8c28-4c93-9c18-19314babce89.yaml
identifier: a29b612b-8c28-4c93-9c18-19314babce89
uri: /reference/a29b612b-8c28-4c93-9c18-19314babce89
- attrs:
.reference_type: 0
Author: 'Berghuijs, Wouter R.; Woods, Ross A.; Hutton, Christopher J.; Sivapalan, M.'
DOI: 10.1002/2016GL068070
ISSN: 1944-8007
Issue: 9
Journal: Geophysical Research Letters
Keywords: flood; hydroclimatology; precipitation; soil moisture; seasonality; snow; 1821 Floods; 1817 Extreme events; 1833 Hydroclimatology; 1804 Catchment; 1854 Precipitation
Pages: 4382-4390
Title: Dominant flood generating mechanisms across the United States
Volume: 43
Year: 2016
_record_number: 19392
_uuid: a36df8f5-949c-412c-8371-e5a5b139c757
reftype: Journal Article
child_publication: /article/10.1002/2016GL068070
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identifier: a36df8f5-949c-412c-8371-e5a5b139c757
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Abstract: 'The durability of concrete is determined largely by its deterioration over time which is affected by the environment. Climate change may alter this environment, causing an acceleration of deterioration processes that will affect the safety and serviceability of concrete infrastructure in Australia, U.S., Europe, China and elsewhere. This investigation of concrete deterioration under changing climate in Australia uses Monte-Carlo simulation of results from General Circulation Models (GCMs) and considers high greenhouse gas emission scenarios representing the A1FI schemes of the IPCC. We present the implications of climate change for the durability of concrete structures, in terms of changes in probability of reinforcement corrosion initiation and corrosion induced damage at a given calendar year between 2000 and 2100 across Australia. Since the main driver to increased concrete deterioration is CO2 concentration and temperature, then increases in damage risks observed in Australia are likely to be observed in other concrete infrastructure internationally. The impact of climate change on the deterioration cannot be ignored, but can be addressed by new approaches in design. Existing concrete structures, for which design has not considered the effects of changing climate may deteriorate more rapidly than originally planned.'
Author: 'Wang, Xiaoming; Stewart, Mark G.; Nguyen, Minh'
DOI: 10.1007/s10584-011-0124-7
Date: February 01
ISSN: 1573-1480
Issue: 3
Journal: Climatic Change
Pages: 941-957
Title: Impact of climate change on corrosion and damage to concrete infrastructure in Australia
Type of Article: journal article
Volume: 110
Year: 2012
_record_number: 26040
_uuid: a37337e2-9a0a-439d-bfc5-fcb396ac056b
reftype: Journal Article
child_publication: /article/10.1007/s10584-011-0124-7
href: https://data.globalchange.gov/reference/a37337e2-9a0a-439d-bfc5-fcb396ac056b.yaml
identifier: a37337e2-9a0a-439d-bfc5-fcb396ac056b
uri: /reference/a37337e2-9a0a-439d-bfc5-fcb396ac056b
- attrs:
.reference_type: 0
.text_styles: ''
Abstract: 'Statistical relationships between annual floods at 200 long-term (85–127 years of record) streamgauges in the coterminous United States and the global mean carbon dioxide concentration (GMCO2) record are explored. The streamgauge locations are limited to those with little or no regulation or urban development. The coterminous US is divided into four large regions and stationary bootstrapping is used to evaluate if the patterns of these statistical associations are significantly different from what would be expected under the null hypothesis that flood magnitudes are independent of GMCO2. In none of the four regions defined in this study is there strong statistical evidence for flood magnitudes increasing with increasing GMCO2. One region, the southwest, showed a statistically significant negative relationship between GMCO2 and flood magnitudes. The statistical methods applied compensate both for the inter-site correlation of flood magnitudes and the shorter-term (up to a few decades) serial correlation of floods.'
Author: "Hirsch, R.M.\rK.R. Ryberg"
DOI: 10.1080/02626667.2011.621895
ISSN: 0262-6667
Issue: 1
Journal: Hydrological Sciences Journal
Keywords: 'floods, ; trends, ; climate change, ; statistics, ; carbon dioxide'
Pages: 1-9
Title: Has the magnitude of floods across the USA changed with global CO2 levels?
URL: http://www.tandfonline.com/doi/abs/10.1080/02626667.2011.621895
Volume: 57
Year: 2012
_chapter: '["Ch. 2: Our Changing Climate FINAL","RF 2","Ch. 3: Water Resources FINAL"]'
_record_number: 825
_uuid: a7f8dbf5-3ec8-4ee1-8740-014006b72bfd
reftype: Journal Article
child_publication: /article/10.1080/02626667.2011.621895
href: https://data.globalchange.gov/reference/a7f8dbf5-3ec8-4ee1-8740-014006b72bfd.yaml
identifier: a7f8dbf5-3ec8-4ee1-8740-014006b72bfd
uri: /reference/a7f8dbf5-3ec8-4ee1-8740-014006b72bfd
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.reference_type: 10
Author: 'Douglass, S.L.; Krolak, J.'
Date: June 2008
Institution: 'Federal Highway Administration. Department of Civil Engineering, University of South Alabama'
Pages: 250
Place Published: 'Mobile, AL'
Series Editor: 'Douglass, S.L.; Krolak, J.'
Title: 'Highways in the Coastal Environment, Second Edition. Hydraulic Engineering Circular No. 25. FHWA-NHI-07-096'
URL: http://www.fhwa.dot.gov/engineering/hydraulics/pubs/07096/07096.pdf
Year: 2008
_chapter: '["Ch. 25: Coastal Zone FINAL","RG 10 Coasts"]'
_record_number: 849
_uuid: aae26529-edab-4278-8fe1-5763251ddb97
reftype: Report
child_publication: /report/fhwa-nhi-07-096
href: https://data.globalchange.gov/reference/aae26529-edab-4278-8fe1-5763251ddb97.yaml
identifier: aae26529-edab-4278-8fe1-5763251ddb97
uri: /reference/aae26529-edab-4278-8fe1-5763251ddb97
- attrs:
.reference_type: 7
Author: 'Niemeier, Deb A.; Anne V. Goodchild; Maura Rowell; Joan L. Walker; Jane Lin; Lisa Schweitzer'
Book Title: 'Assessment of Climate Change in the Southwest United States: A Report Prepared for the National Climate Assessment'
Editor: Gregg Garfin; Angela Jardine; Robert Merideth; Mary Black; Sarah LeRoy
Pages: 297-311
Place Published: 'Washington, DC'
Publisher: Island Press
Series Title: A report by the Southwest Climate Alliance
Title: Transportation
URL: https://www.swcarr.arizona.edu/chapter/14
Year: 2013
_record_number: 26035
_uuid: b05cd14d-f90c-42ba-92d7-ab8235603a3c
reftype: Book Section
child_publication: /report/swccar-assessment-climate-change-in-southwest-us
href: https://data.globalchange.gov/reference/b05cd14d-f90c-42ba-92d7-ab8235603a3c.yaml
identifier: b05cd14d-f90c-42ba-92d7-ab8235603a3c
uri: /reference/b05cd14d-f90c-42ba-92d7-ab8235603a3c
- attrs:
Author: 'Chinowsky, Paul S.; Price, Jason C.; Neumann, James E.'
DOI: 10.1016/j.gloenvcha.2013.03.004
Date: 2013/08/01/
ISSN: 0959-3780
Issue: 4
Journal: Global Environmental Change
Keywords: Infrastructure; Roads; Degradation; Economic impact
Pages: 764-773
Title: Assessment of climate change adaptation costs for the U.S. road network
Volume: 23
Year: 2013
_record_number: 24540
_uuid: b0fc2727-11d7-4627-84ac-33c201875b58
reftype: Journal Article
child_publication: /article/10.1016/j.gloenvcha.2013.03.004
href: https://data.globalchange.gov/reference/b0fc2727-11d7-4627-84ac-33c201875b58.yaml
identifier: b0fc2727-11d7-4627-84ac-33c201875b58
uri: /reference/b0fc2727-11d7-4627-84ac-33c201875b58
- attrs:
.reference_type: 0
Author: 'Smith, Jane McKee; Cialone, Mary A.; Wamsley, Ty V.; McAlpin, Tate O.'
DOI: 10.1016/j.oceaneng.2009.07.008
Date: 1//
ISSN: 0029-8018
Issue: 1
Journal: Ocean Engineering
Keywords: Hurricane; Katrina; Sea level rise; Southeast Louisiana; Storm surge; Waves; ADCIRC; STWAVE; IPET
Pages: 37-47
Title: Potential impact of sea level rise on coastal surges in southeast Louisiana
Volume: 37
Year: 2010
_record_number: 19983
_uuid: b19545a1-2e63-458c-8497-32a6d023aa89
reftype: Journal Article
child_publication: /article/10.1016/j.oceaneng.2009.07.008
href: https://data.globalchange.gov/reference/b19545a1-2e63-458c-8497-32a6d023aa89.yaml
identifier: b19545a1-2e63-458c-8497-32a6d023aa89
uri: /reference/b19545a1-2e63-458c-8497-32a6d023aa89
- attrs:
Abstract: 'Tidal floods (i.e., “nuisance” flooding) are occurring more often during seasonal high tides or minor wind events, and the frequency is expected to increase dramatically in the coming decades. During these flood events, coastal communities’ roads are often impassable or difficult to pass, thus impacting routine transport needs. This study identifies vulnerable roads and quantifies the risk from nuisance flooding in the Eastern United States by combining public road information from the Federal Highway Administration’s Highway Performance Monitoring System with flood frequency maps, tidal gauge historic observations, and future projections of annual minor tidal flood frequencies and durations. The results indicate that tidal nuisance flooding across the East Coast threatens 7508 miles (12,083 km) of roadways including over 400 miles (644 km) of interstate roadways. From 1996–2005 to 2006–2015, there was a 90% average increase in nuisance floods. With sea level rise, nuisance-flood frequency is projected to grow at all locations assessed. The total induced vehicle-hours of delay due to nuisance flooding currently exceed 100 million hours annually. Nearly 160 million vehicle-hours of delay across the East Coast by 2020 (85% increase from 2010); 1.2 billion vehicle-hours by 2060 (126% increase from 2010); and 3.4 billion vehicle-hours by 2100 (392% increase from 2010) are projected under an intermediate low sea-level-rise scenario. By 2056–2065, nuisance flooding could occur almost daily at sites in Connecticut, New Jersey, Maryland, the District of Columbia, North Carolina, and Florida under an intermediate sea-level-rise scenario.'
Author: 'Jacobs, Jennifer M.; Cattaneo, Lia R.; Sweet, William; Mansfield, Theodore'
DOI: 10.1177/0361198118756366
Journal: Transportation Research Record
Title: Recent and future outlooks for nuisance flooding impacts on roadways on the US East Coast
Year: 2018
_record_number: 26046
_uuid: b4808700-a94a-44da-b2bb-d360a83146f1
reftype: Journal Article
child_publication: /article/10.1177/0361198118756366
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identifier: b4808700-a94a-44da-b2bb-d360a83146f1
uri: /reference/b4808700-a94a-44da-b2bb-d360a83146f1
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.reference_type: 47
Author: 'De La Fuente, Juan A.; Mikulovsky, Ryan P.'
Conference Location: 'San Francisco, CA'
Conference Name: AGU Fall Meeting
Pages: Abstract H43G-1540
Title: 'Debris flows and road damage following a wildfire in 2014 on the Klamath National Forest, Northern California, near the community of Seiad, CA'
URL: https://agu.confex.com/agu/fm16/meetingapp.cgi/Paper/138852
Year: 2016
_record_number: 26026
_uuid: b65e9759-8397-48fc-bb41-fca6d6036994
reftype: Conference Paper
child_publication: /generic/f52e4542-9d2d-4ada-839e-5298f03ed98d
href: https://data.globalchange.gov/reference/b65e9759-8397-48fc-bb41-fca6d6036994.yaml
identifier: b65e9759-8397-48fc-bb41-fca6d6036994
uri: /reference/b65e9759-8397-48fc-bb41-fca6d6036994
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.reference_type: 10
Author: 'Mauger, Guillaume S.; Casola, Joseph H.; Harriet A. Morgan; Ronda L. Strauch; Brittany Jones; Beth Curry; Busch Isaksen, Tania M.; Whitely Binder, Lara; Meade B. Krosby; Amy K. Snover'
DOI: 10.7915/CIG93777D
Institution: 'University of Washington, Climate Impacts Group'
Pages: various
Place Published: 'Seattle, WA'
Title: 'State of knowledge: Climate change in Puget Sound'
URL: https://cig.uw.edu/resources/special-reports/ps-sok/
Year: 2015
_record_number: 24550
_uuid: b7b33c40-58c1-4a5d-a6fa-f850a96d0981
reftype: Report
child_publication: /report/state-knowledge-climate-change-puget-sound
href: https://data.globalchange.gov/reference/b7b33c40-58c1-4a5d-a6fa-f850a96d0981.yaml
identifier: b7b33c40-58c1-4a5d-a6fa-f850a96d0981
uri: /reference/b7b33c40-58c1-4a5d-a6fa-f850a96d0981
- attrs:
.reference_type: 10
Author: 'Clancy, Justin B.; Grannis, Jessica'
Institution: Georgetown Climate Center
Pages: 17
Place Published: 'Washington, DC'
Title: 'Lessons learned from [Hurricane] Irene: Climate change, federal disaster relief, and barriers to adaptive reconstruction'
URL: http://www.georgetownclimate.org/reports/lessons-learned-from-irene-climate-change-federal-disaster-relief-and-barriers-to-adaptive-reconstruction.html
Year: 2013
_record_number: 24596
_uuid: b86b6e3d-2579-4e53-a2ca-a257d04c8df9
reftype: Report
child_publication: /report/lessons-learned-hurricane-irene-climate-change-federal-disaster-relief-barriers-adaptive-reconstruction
href: https://data.globalchange.gov/reference/b86b6e3d-2579-4e53-a2ca-a257d04c8df9.yaml
identifier: b86b6e3d-2579-4e53-a2ca-a257d04c8df9
uri: /reference/b86b6e3d-2579-4e53-a2ca-a257d04c8df9
- attrs:
.reference_type: 47
Author: 'Khatami, Dena; Behrouz Shafei'
Conference Location: 'Washington, DC'
Conference Name: 96th Transportation Research Board (TRB) Annual Meeting
Date: January 8-12
Pages: No. 17-04849
Title: 'Climate change impact on management of deteriorating bridges: A case study of US Midwest region'
URL: http://docs.trb.org/prp/17-04849.pdf
Year: 2017
_record_number: 26029
_uuid: bab690fd-db14-4554-96c3-1d8a92b23a48
reftype: Conference Paper
child_publication: /generic/4feffc11-8d22-46a8-81df-02bb1f63d7da
href: https://data.globalchange.gov/reference/bab690fd-db14-4554-96c3-1d8a92b23a48.yaml
identifier: bab690fd-db14-4554-96c3-1d8a92b23a48
uri: /reference/bab690fd-db14-4554-96c3-1d8a92b23a48
- attrs:
Author: 'Collins, Mathias J.; Kirk, Johnathan P.; Pettit, Joshua; DeGaetano, Arthur T.; McCown, M. Sam; Peterson, Thomas C.; Means, Tiffany N.; Zhang, Xuebin'
DOI: 10.1080/02723646.2014.888510
Date: 2014/05/04
ISSN: 0272-3646
Issue: 3
Journal: Physical Geography
Pages: 195-219
Publisher: Taylor & Francis
Title: 'Annual floods in New England (USA) and Atlantic Canada: Synoptic climatology and generating mechanisms'
Volume: 35
Year: 2014
_record_number: 26022
_uuid: bc4f3fef-d1f5-465a-9376-6aa2aaa731a1
reftype: Journal Article
child_publication: /article/10.1080/02723646.2014.888510
href: https://data.globalchange.gov/reference/bc4f3fef-d1f5-465a-9376-6aa2aaa731a1.yaml
identifier: bc4f3fef-d1f5-465a-9376-6aa2aaa731a1
uri: /reference/bc4f3fef-d1f5-465a-9376-6aa2aaa731a1
- attrs:
.reference_type: 9
Abstract: 'TRB’s Airport Cooperative Research Program (ACRP) Synthesis 33: Airport Climate Adaptation and Resilience reviews the range of risks to airports from projected climate change and the emerging approaches for handling them.'
Author: 'Transportation Research Board,; National Academies of Sciences Engineering and Medicine,'
DOI: 10.17226/22773
Keywords: Transportation and Infrastructure
Language: English
Place Published: 'Washington, DC'
Publisher: The National Academies Press
Series Editor: 'Baglin, Chris'
Title: Airport Climate Adaptation and Resilience
Year: 2012
_record_number: 26045
_uuid: bde3292e-b7bb-4a48-b2ea-40a594f37eb5
reftype: Book
child_publication: /book/airport-climate-adaptation-resilience
href: https://data.globalchange.gov/reference/bde3292e-b7bb-4a48-b2ea-40a594f37eb5.yaml
identifier: bde3292e-b7bb-4a48-b2ea-40a594f37eb5
uri: /reference/bde3292e-b7bb-4a48-b2ea-40a594f37eb5
- attrs:
.reference_type: 10
Author: 'Douglass, Scott L.; Webb, Bret M.; Kilgore, Roger'
Institution: 'Federal Highway Administration, Office of Bridge Technology'
Pages: 123
Place Published: 'Washington, DC'
Series Volume: FHWA-NHI-14-006
Title: 'Highways in the Coastal Environment: Assessing Extreme Events: Volume 2 (Hydraulic Engineering Circular No. 25–Volume 2)'
URL: https://www.fhwa.dot.gov/engineering/hydraulics/library_arc.cfm?pub_number=192&id=158
Year: 2014
_record_number: 24544
_uuid: c4151050-1289-41b6-a2ac-b760afe3c98b
reftype: Report
child_publication: /report/highways-coastal-environment-assessing-extreme-events-volume-2-hydraulic-engineering-circular-no-25volume-2
href: https://data.globalchange.gov/reference/c4151050-1289-41b6-a2ac-b760afe3c98b.yaml
identifier: c4151050-1289-41b6-a2ac-b760afe3c98b
uri: /reference/c4151050-1289-41b6-a2ac-b760afe3c98b
- attrs:
.reference_type: 10
Author: 'Sweet, W.V.; R.E. Kopp; C.P. Weaver; J. Obeysekera; R.M. Horton; E.R. Thieler; C. Zervas '
Pages: 75
Place Published: 'Silver Spring, MD'
Publisher: 'National Oceanic and Atmospheric Administration, National Ocean Service'
Series Volume: NOAA Tech. Rep. NOS CO-OPS 083
Title: Global and Regional Sea Level Rise Scenarios for the United States
URL: https://tidesandcurrents.noaa.gov/publications/techrpt83_Global_and_Regional_SLR_Scenarios_for_the_US_final.pdf
Year: 2017
_record_number: 20608
_uuid: c66bf5a9-a6d7-4043-ad99-db0ae6ae562c
reftype: Report
child_publication: /report/global-regional-sea-level-rise-scenarios-united-states
href: https://data.globalchange.gov/reference/c66bf5a9-a6d7-4043-ad99-db0ae6ae562c.yaml
identifier: c66bf5a9-a6d7-4043-ad99-db0ae6ae562c
uri: /reference/c66bf5a9-a6d7-4043-ad99-db0ae6ae562c
- attrs:
.reference_type: 10
Author: 'Federal Highway Administration,'
Institution: 'Federal Highway Administration,Transportation Engineering Approaches to Climate Resiliency (TEACR) Project'
Pages: 52
Place Published: 'Washington, DC'
Series Volume: FHWA-HEP-17-014
Title: 'Sea level rise and storm surge impacts on a coastal bridge: I-10 Bayway, Mobile Bay, Alabama'
URL: https://www.fhwa.dot.gov/environment/sustainability/resilience/ongoing_and_current_research/teacr/al_i-10/index.cfm
Year: 2016
_record_number: 24589
_uuid: cc670795-0251-48b0-8bf3-2f87fc67f8fd
reftype: Report
child_publication: /report/sea-level-rise-storm-surge-impacts-on-coastal-bridge-i-10-bayway-mobile-bay-alabama
href: https://data.globalchange.gov/reference/cc670795-0251-48b0-8bf3-2f87fc67f8fd.yaml
identifier: cc670795-0251-48b0-8bf3-2f87fc67f8fd
uri: /reference/cc670795-0251-48b0-8bf3-2f87fc67f8fd
- attrs:
Abstract: 'Numerous studies have shown that precipitation has a significant impact on motor vehicle crashes. Hourly weather radar data with a 4-km resolution and over 600 000 crashes from 2002 to 2012 in Iowa are used to assess the effects of precipitation on motor vehicle crashes. Using a matched pairs analysis, this study finds that the relative accident risk (RAR) across the state during the study period was 1.69 [1.66, 1.71]. However, RAR increased to as high as 3.7 [3.6, 4.0] and as low as 1.1 [1.0, 1.2] for frozen and liquid precipitation types, respectively. RAR also varied significantly by hour of the day, with RAR near 2 in the late afternoon and 1.3 during the early morning hours, suggesting an interaction effect between precipitation and traffic volume and/or density on crash risk. The study also shows that interstates and major highways tend to have higher RAR than smaller roads, and it was able to identify locations that are particularly sensitive to precipitation with regard to crashes. This study can be used to inform future studies on the effects of weather and climate change on crashes.'
Author: 'Tamerius, J. D.; X. Zhou; R. Mantilla; T. Greenfield-Huitt'
DOI: 10.1175/wcas-d-16-0009.1
Issue: 4
Journal: 'Weather, Climate, and Society'
Keywords: 'Geographic location/entity,North America,Observational techniques and algorithms,Radars/Radar observations,Applications,Geographic information systems (GIS),Local effects,Societal impacts,Transportation meteorology'
Pages: 399-407
Title: 'Precipitation effects on motor vehicle crashes vary by space, time, and environmental conditions'
Volume: 8
Year: 2016
_record_number: 24565
_uuid: ccb1b544-9a86-4b57-a3d7-9499227d67c7
reftype: Journal Article
child_publication: /article/10.1175/wcas-d-16-0009.1
href: https://data.globalchange.gov/reference/ccb1b544-9a86-4b57-a3d7-9499227d67c7.yaml
identifier: ccb1b544-9a86-4b57-a3d7-9499227d67c7
uri: /reference/ccb1b544-9a86-4b57-a3d7-9499227d67c7
- attrs:
.reference_type: 10
Author: 'Gopalakrishna, Deepak; Jeremy Schroeder; Amy Huff; Amy Thomas; Amy Leibrand '
Institution: Federal Highway Administration
Pages: 37
Place Published: 'Washington, DC'
Series Volume: FHWA-HOP-13-030
Title: 'Planning for systems management & operations as part of climate change adaptation '
URL: https://ops.fhwa.dot.gov/publications/fhwahop13030/index.htm
Year: 2013
_record_number: 24586
_uuid: cd7183d0-7e06-4d08-bba2-3765b2eba3fe
reftype: Report
child_publication: /report/planning-systems-management-operations-as-part-climate-change-adaptation
href: https://data.globalchange.gov/reference/cd7183d0-7e06-4d08-bba2-3765b2eba3fe.yaml
identifier: cd7183d0-7e06-4d08-bba2-3765b2eba3fe
uri: /reference/cd7183d0-7e06-4d08-bba2-3765b2eba3fe
- attrs:
Abstract: 'Coastal communities with road infrastructure close to the shoreline are vulnerable to the effects of sea level rise caused by climate change. The sea level in coastal New Hampshire is projected to rise by 3.9 to 6.6 ft (1.2 to 2.0 m) by 2100. Climate change vulnerability and adaptation studies have focused on surface water flooding caused by sea level rise; however, little attention has been given to the effects of climate change on groundwater. Groundwater is expected to rise with sea level rise and will intersect the unbound layers of coastal road infrastructure, thus reducing the service life of pavement. Vulnerability studies are an essential part of adaptation planning, and pavement engineers are looking for methods to identify roads that may experience premature failure. In this study, a regional groundwater flow model of coastal New Hampshire was used to identify road infrastructure for which rising groundwater will move into the unbound materials during the design life of the pavement. Multilayer elastic theory was used to analyze typical pavement profiles in several functional classifications of roadway to determine the magnitude of fatigue and rutting life reduction expected from four scenarios of sea level rise. All the evaluation sites experienced service life reduction, the magnitude and timing of which depended on the current depth to groundwater, the pavement structure, and the subgrade. The use of this methodology will enable pavement engineers to target coastal road adaptation projects effectively and will result in significant cost savings compared with implementation of broad adaptation projects or the costs of no action.'
Author: 'Knott, Jayne F.; Mohamed Elshaer; Jo Sias Daniel; Jennifer M. Jacobs; Paul Kirshen'
DOI: 10.3141/2639-01
Journal: 'Transportation Research Record: Journal of the Transportation Research Board'
Pages: 1-10
Title: Assessing the effects of rising groundwater from sea level rise on the service life of pavements in coastal road infrastructure
Volume: 2639
Year: 2017
_record_number: 21756
_uuid: d09c22ad-256c-4fc1-998b-cf888a93fa58
reftype: Journal Article
child_publication: /article/10.3141/2639-01
href: https://data.globalchange.gov/reference/d09c22ad-256c-4fc1-998b-cf888a93fa58.yaml
identifier: d09c22ad-256c-4fc1-998b-cf888a93fa58
uri: /reference/d09c22ad-256c-4fc1-998b-cf888a93fa58
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Abstract: 'The objective of this research was to integrate current data sources to develop a methodology for assessing and mitigating the potential impacts of sea level rise (SLR) on Florida’s transportation infrastructure to assist transportation planning. The proposed approach integrates the Florida Department of Transportation (FDOT) information system with existing topographical and geological data to facilitate (1) the evaluation of current and projected SLR impacts on Florida’s coastline and low-lying terrain areas, and (2) the identification of the physical transportation infrastructure that is most likely to be affected by frequent to continuous flooding because of SLR so that solutions could be sought. The projection of SLR, and the timing for the same, was outlined using a benchmark approach that brackets time intervals as opposed to specific timing for improvements. Further research to evaluate the impact of sea level rise on ponding and storm surge is a future, more difficult area of investigation.'
Author: 'Bloetscher, Frederick; Leonard Berry; Jarice Rodriguez-Seda; Nicole Hernandez Hammer; Thomas Romah; Dusan Jolovic; Barry Heimlich; Maria Abadal Cahill'
DOI: 10.1061/(ASCE)IS.1943-555X.0000174
Issue: 2
Journal: Journal of Infrastructure Systems
Pages: 04013015
Title: Identifying FDOT's physical transportation infrastructure vulnerable to sea level rise
Volume: 20
Year: 2014
_record_number: 24536
_uuid: d339d85e-f249-4ab4-acbb-eb605b777dd9
reftype: Journal Article
child_publication: /article/10.1061/(ASCE)IS.1943-555X.0000174
href: https://data.globalchange.gov/reference/d339d85e-f249-4ab4-acbb-eb605b777dd9.yaml
identifier: d339d85e-f249-4ab4-acbb-eb605b777dd9
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Abstract: 'A method to assess the impacts of forecasted climate change on pavement deterioration is presented. Traditional methods of pavement design use historic climate data and assume that climate is stationary with time. Climate change challenges this assumption of stationarity (i.e., natural driving forces of engineering have a variability described by a time-invariant probability density function). Therefore, the use of historic climate data is insufficient for the prediction of climate conditions. The focus is on the preparation and the use of climate model data sets as inputs to the Mechanistic-Empirical Pavement Design Guide (MEPDG) model to simulate flexible pavement performance and deterioration over time. The method is illustrated with a case study that uses future climate model temperature data from three North American Regional Climate Change Assessment Program scenarios at four sites across New England. Pavement distress predicted with future temperature scenarios is compared with that from MEPDG temperature data. Application of the method demonstrates the importance of matching the overlapping periods before using climate forecast output in the MEPDG. Although the simulated impact of future temperature changes on pavement performance was negligible for alligator cracking at the four study sites, asphalt concrete rutting differences were great enough to warrant additional consideration and to suggest that climate change and variability in future climate scenarios could affect pavement design and evaluation. The proposed method can be used to evaluate the impact of other climate variables alone or in combination. The method also can readily use new climate model output and be adapted for new downscaling methods.'
Author: 'Meagher, William; Jo Daniel; Jennifer Jacobs; Ernst Linder'
DOI: 10.3141/2305-12
Journal: 'Transportation Research Record: Journal of the Transportation Research Board'
Pages: 111-120
Title: Method for evaluating implications of climate change for design and performance of flexible pavements
Volume: 2305
Year: 2012
_record_number: 24551
_uuid: d67e92b2-0e74-45a2-8e13-5cb22ea12623
reftype: Journal Article
child_publication: /article/10.3141/2305-12
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uri: /reference/d67e92b2-0e74-45a2-8e13-5cb22ea12623
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.reference_type: 9
DOI: 10.7930/J0Z31WJ2
Editor: 'Melillo, Jerry M.; Richmond, Terese (T.C.); Yohe, Gary W.'
ISBN: 9780160924026
Number of Pages: 841
Place Published: 'Washington, DC'
Publisher: U.S. Global Change Research Program
Title: 'Climate Change Impacts in the United States: The Third National Climate Assessment'
URL: http://nca2014.globalchange.gov
Year: 2014
_chapter: '["Ch. 0: About this Report FINAL"]'
_record_number: 4692
_uuid: dd5b893d-4462-4bb3-9205-67b532919566
reftype: Edited Book
child_publication: /report/nca3
href: https://data.globalchange.gov/reference/dd5b893d-4462-4bb3-9205-67b532919566.yaml
identifier: dd5b893d-4462-4bb3-9205-67b532919566
uri: /reference/dd5b893d-4462-4bb3-9205-67b532919566
- attrs:
Author: 'Melvin, April M.; Larsen, Peter; Boehlert, Brent; Neumann, James E.; Chinowsky, Paul; Espinet, Xavier; Martinich, Jeremy; Baumann, Matthew S.; Rennels, Lisa; Bothner, Alexandra; Nicolsky, Dmitry J.; Marchenko, Sergey S.'
DOI: 10.1073/pnas.1611056113
Database Provider: www.pnas.org
Date: 2016/12/27/
ISSN: '0027-8424, 1091-6490'
Issue: 2
Journal: Proceedings of the National Academy of Sciences of the United States of America
Keywords: adaptation; Alaska; climate change; damages; infrastructure
Language: en
Pages: E122-E131
Title: Climate change damages to Alaska public infrastructure and the economics of proactive adaptation
Volume: 114
Year: 2017
_record_number: 22252
_uuid: df6fcad4-f0ea-4c60-97e1-ae2a40455f51
reftype: Journal Article
child_publication: /article/10.1073/pnas.1611056113
href: https://data.globalchange.gov/reference/df6fcad4-f0ea-4c60-97e1-ae2a40455f51.yaml
identifier: df6fcad4-f0ea-4c60-97e1-ae2a40455f51
uri: /reference/df6fcad4-f0ea-4c60-97e1-ae2a40455f51
- attrs:
.reference_type: 10
Author: 'Freudenberg, Robert; Lucrecia Montemayor; Ellis Calvin; Emily Korman; Sarabrent McCoy; Julieet Michaelson; Chris Jones; Richard Barone; Moses Gates; Wendy Pollack; Ben Oldenburg'
Institution: Regional Plan Association
Pages: 25
Place Published: New York
Title: 'Under water: How sea level rise threatens the Tri-State Region'
URL: http://library.rpa.org/pdf/RPA-Under-Water-How-Sea-Level-Rise-Threatens-the-Tri-State-Region.pdf
Year: 2016
_record_number: 24587
_uuid: e192e196-23b1-417f-b4a3-ce2a8ef52268
reftype: Report
child_publication: /report/under-water-how-sea-level-rise-threatens-tri-state-region
href: https://data.globalchange.gov/reference/e192e196-23b1-417f-b4a3-ce2a8ef52268.yaml
identifier: e192e196-23b1-417f-b4a3-ce2a8ef52268
uri: /reference/e192e196-23b1-417f-b4a3-ce2a8ef52268
- attrs:
Abstract: 'A method for deriving quantitative relationships between road slipperiness, traffic accident risk and winter road maintenance (WRM) activity is described. The method is also applied to data from an area in southern Sweden. If a specific type of road slipperiness represents a large accident risk despite high WRM activity it is important to increase public awareness during such periods. If the type of slipperiness represents a large accident risk but is accompanied by low WRM activity, it is also important to increase the WRM to reduce the accident risk. In the method, a road slipperiness classification, based on atmospheric processes, is used to classify the road conditions at the time an accident occurred. The road condition is classified either as non-slippery or as one out of 10 types of slipperiness. Data for the slipperiness classification are taken from the Swedish Road Weather Information System (RWIS). Results from this study show that the traffic accident risk was different for different types of road slipperiness. Highest accident risk was associated with road slipperiness due to rain or sleet on a frozen road surface. When accidents occurred in these situations, there was always high WRM activity. This indicates that, in order to reduce the accident rate during these situations, public awareness must be increased by providing information to drivers. The study also demonstrates the benefits of applying a standardized road slipperiness classification to all kinds of sources of road safety information, such as a RWIS, traffic accident reports and WRM reports. With a standardized and objective classification of the road conditions and digitally stored data, all evaluations are easily conducted.'
Author: 'Norrman, Jonas; Marie Eriksson; Sven Lindqvist'
DOI: 10.3354/cr015185
Issue: 3
Journal: Climate Research
Pages: 185-193
Title: 'Relationships between road slipperiness, traffic accident risk and winter road maintenance activity'
Volume: 15
Year: 2000
_record_number: 24557
_uuid: e1b34455-2f79-4bb8-8983-521b2e1c3f82
reftype: Journal Article
child_publication: /article/10.3354/cr015185
href: https://data.globalchange.gov/reference/e1b34455-2f79-4bb8-8983-521b2e1c3f82.yaml
identifier: e1b34455-2f79-4bb8-8983-521b2e1c3f82
uri: /reference/e1b34455-2f79-4bb8-8983-521b2e1c3f82
- attrs:
Abstract: 'This paper proposes an approach for developing optimal risk-based management strategies for bridges in coastal regions. Currently, bridge management strategies in these regions are designed to limit the negative effects corrosion has on bridge performance under traffic loads. However, recent large-scale hurricanes and their associated damage to bridges have demonstrated the need to consider hurricanes when making bridge management decisions. This paper aims to develop optimal risk-based management strategies that include both repair actions to address deteriorating performance under traffic loads and retrofit actions to minimize the potential for failure during hurricanes. The proposed approach considers the uncertainties associated with hazards, and the economic, social, and environmental consequences of failure under traffic loads and hurricanes. The optimal management strategies are achieved by formulating and solving a multiobjective optimization problem. The objectives of this optimization problem include minimizing the lifecycle costs accrued due to repair and retrofit actions and minimizing the maximum risk over the lifecycle of the bridge. The proposed risk-based approach is applied to a steel girder bridge located in a hurricane-prone region.'
Author: 'Mondoro, Alysson; Dan M. Frangopol; Mohamed Soliman'
DOI: 10.1061/(ASCE)IS.1943-555X.0000346
Issue: 3
Journal: Journal of Infrastructure Systems
Pages: 04016046
Title: Optimal risk-based management of coastal bridges vulnerable to hurricanes
Volume: 23
Year: 2017
_record_number: 24555
_uuid: e3ecbd2a-576b-4626-a05d-1cc3f1183446
reftype: Journal Article
child_publication: /article/10.1061/(ASCE)IS.1943-555X.0000346
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identifier: e3ecbd2a-576b-4626-a05d-1cc3f1183446
uri: /reference/e3ecbd2a-576b-4626-a05d-1cc3f1183446
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.reference_type: 7
Author: 'Easterling, D.R.; J.R. Arnold; T. Knutson; K.E. Kunkel; A.N. LeGrande; L.R. Leung; R.S. Vose; D.E. Waliser; M.F. Wehner'
Book Title: 'Climate Science Special Report: Fourth National Climate Assessment, Volume I'
Chapter: 7
DOI: 10.7930/J0H993CC
Editor: 'Wuebbles, D.J.; D.W. Fahey; K.A. Hibbard; D.J. Dokken; B.C. Stewart; T.K. Maycock'
Pages: 207-230
Place Published: 'Washington, DC, USA'
Publisher: U.S. Global Change Research Program
Title: Precipitation Change in the United States
Year: 2017
_record_number: 21565
_uuid: e8089a19-413e-4bc5-8c4a-7610399e268c
reftype: Book Section
child_publication: /report/climate-science-special-report/chapter/precipitation-change
href: https://data.globalchange.gov/reference/e8089a19-413e-4bc5-8c4a-7610399e268c.yaml
identifier: e8089a19-413e-4bc5-8c4a-7610399e268c
uri: /reference/e8089a19-413e-4bc5-8c4a-7610399e268c
- attrs:
Author: 'Behr, Joshua G.; Rafael Diaz; Molly Mitchell'
ISSN: 0042-0271
Issue: 1
Journal: The Virginia News Letter
Pages: 1-6
Title: 'Building resiliency in response to sea level rise and recurrent flooding: Comprehensive planning in Hampton Roads'
URL: https://vig.coopercenter.org/sites/vig/files/VirginiaNewsLetter_2016_V92-N1.pdf
Volume: 92
Year: 2016
_record_number: 24437
_uuid: ec58e058-9bec-479d-83b8-679f27aa4361
reftype: Journal Article
child_publication: /article/building-resiliency-response-sea-level-rise-recurrent-flooding-comprehensive-planning-hampton-roads
href: https://data.globalchange.gov/reference/ec58e058-9bec-479d-83b8-679f27aa4361.yaml
identifier: ec58e058-9bec-479d-83b8-679f27aa4361
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