--- - attrs: Author: 'Bendtsen, Jørgen; Hansen, Jørgen L. S.' DOI: 10.1016/j.ecolmodel.2012.06.018 Date: 2013/08/24/ ISSN: 0304-3800 Journal: Ecological Modelling Keywords: Hypoxia; Climate change; Baltic Sea; Respiration Pages: 17-26 Title: Effects of global warming on hypoxia in the Baltic Sea–North Sea transition zone Volume: 264 Year: 2013 _record_number: 25582 _uuid: aae8660c-5f72-48ba-8a3d-072119541f3e reftype: Journal Article child_publication: /article/10.1016/j.ecolmodel.2012.06.018 href: https://data.globalchange.gov/reference/aae8660c-5f72-48ba-8a3d-072119541f3e.yaml identifier: aae8660c-5f72-48ba-8a3d-072119541f3e uri: /reference/aae8660c-5f72-48ba-8a3d-072119541f3e - attrs: .reference_type: 10 Author: 'Coleman-Jensen, Alisha; Matthew P. Rabbitt; Christian A. Gregory; Anita Singh' Institution: 'U.S. Department of Agriculture, Economic Research Service' Pages: 36 Place Published: 'Washington, DC' Series Volume: Economic Research Report (ERR) 215 Title: Household Food Security in the United States in 2015 URL: https://www.ers.usda.gov/publications/pub-details/?pubid=79760 Year: 2016 _record_number: 23600 _uuid: abcd2b28-87f9-499e-9be5-736d6208d3c2 reftype: Report child_publication: /report/household-food-security-united-states-2015 href: https://data.globalchange.gov/reference/abcd2b28-87f9-499e-9be5-736d6208d3c2.yaml identifier: abcd2b28-87f9-499e-9be5-736d6208d3c2 uri: /reference/abcd2b28-87f9-499e-9be5-736d6208d3c2 - attrs: Abstract: 'Increasing global temperatures are likely to have major impacts on agriculture, but the effects will vary by crop and location. This paper describes the temperature sensitivity and exposure of selected specialty crops in California. We used literature synthesis to create several sensitivity indices (from 1 to 4) to changes in winter minimum and summer maximum temperature for the top 14 specialty crops. To estimate exposure, we used seasonal period change analysis of mid-century minimum and maximum temperature changes downscaled to county level from CMIP5 models. We described crop vulnerability on a county basis as (crop sensitivity index × county climate exposure × area of crop in county); individual crop vulnerabilities were combined to create an aggregate index of specialty crop vulnerability by county. We also conducted analyses scaled by crop value rather than area, and normalized to total specialty crop area in each county. Our analyses yielded a spatial assessment highlighting seasons and counties of highest vulnerability. Winter and summer vulnerability are correlated, but not highly so. High-producing counties (e.g., Fresno County in the San Joaquin Valley) are the most vulnerable in absolute terms, while northern Sacramento Valley counties are the most vulnerable in relative terms, due to their reliance on heat-sensitive perennial crops. Our results illustrate the importance of examining crop vulnerability from different angles. More physiological and economic research is needed to build a comprehensive picture of specialty crop vulnerability to climate change.' Author: 'Kerr, Amber; Dialesandro, Jake; Steenwerth, Kerri; Lopez-Brody, Nathan; Elias, Emile' DOI: 10.1007/s10584-017-2011-3 Date: September 07 ISSN: 1573-1480 Journal: Climatic Change Title: Vulnerability of California specialty crops to projected mid-century temperature changes Type of Article: journal article Year: 2017 _record_number: 23546 _uuid: ac8bff56-32ec-4f48-b5f1-3afa3c26a9ac reftype: Journal Article child_publication: /article/10.1007/s10584-017-2011-3 href: https://data.globalchange.gov/reference/ac8bff56-32ec-4f48-b5f1-3afa3c26a9ac.yaml identifier: ac8bff56-32ec-4f48-b5f1-3afa3c26a9ac uri: /reference/ac8bff56-32ec-4f48-b5f1-3afa3c26a9ac - attrs: Author: 'Lipper, Leslie; Thornton, Philip; Campbell, Bruce M.; Baedeker, Tobias; Braimoh, Ademola; Bwalya, Martin; Caron, Patrick; Cattaneo, Andrea; Garrity, Dennis; Henry, Kevin; Hottle, Ryan; Jackson, Louise; Jarvis, Andrew; Kossam, Fred; Mann, Wendy; McCarthy, Nancy; Meybeck, Alexandre; Neufeldt, Henry; Remington, Tom; Sen, Pham Thi; Sessa, Reuben; Shula, Reynolds; Tibu, Austin; Torquebiau, Emmanuel F.' DOI: 10.1038/nclimate2437 Date: 11/26/online Journal: Nature Climate Change Pages: 1068-1072 Publisher: 'Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.' Title: Climate-smart agriculture for food security Type of Article: Perspective Volume: 4 Year: 2014 _record_number: 25550 _uuid: ade0fd0f-df65-4c10-80f5-90495292f78e reftype: Journal Article child_publication: /article/10.1038/nclimate2437 href: https://data.globalchange.gov/reference/ade0fd0f-df65-4c10-80f5-90495292f78e.yaml identifier: ade0fd0f-df65-4c10-80f5-90495292f78e uri: /reference/ade0fd0f-df65-4c10-80f5-90495292f78e - attrs: Author: 'Mase, Amber Saylor; Gramig, Benjamin M.; Prokopy, Linda Stalker' DOI: 10.1016/j.crm.2016.11.004 Date: 2017/01/01/ ISSN: 2212-0963 Journal: Climate Risk Management Keywords: Agriculture; Risk management; Climate change; Adaptation behavior Pages: 8-17 Title: 'Climate change beliefs, risk perceptions, and adaptation behavior among midwestern U.S. crop farmers' Volume: 15 Year: 2017 _record_number: 23560 _uuid: b10f4c0c-db8c-4f4b-b9ad-85a3a59fb95e reftype: Journal Article child_publication: /article/10.1016/j.crm.2016.11.004 href: https://data.globalchange.gov/reference/b10f4c0c-db8c-4f4b-b9ad-85a3a59fb95e.yaml identifier: b10f4c0c-db8c-4f4b-b9ad-85a3a59fb95e uri: /reference/b10f4c0c-db8c-4f4b-b9ad-85a3a59fb95e - attrs: Abstract: 'The states of Colorado, Montana, Nebraska, North Dakota, South Dakota, and Wyoming comprise the Northern Great Plains region of the USA. The soil and water resources contained in this region have historically supported highly diverse and productive agriculture enterprises that provide a significant proportion of the food, feed, and oilseed for the nation. The region also provides ecological services that influence air, water, and soil quality along with biological diversity. Combined with livestock production and a biofuel industry, crop production forms an integrated system that can offer producers flexibility in management decisions. Projected climatic changes for this region include increasing atmospheric CO2, a longer, warmer growing season, and increased precipitation, likely received in more frequent extreme events. These changes will impact soil and water resources in the region and create opportunities and challenges for land managers. The objectives of this paper are to describe anticipated impacts of projected mid-(2050) and late-(2085) climatic changes on crop production systems in the Northern Great Plains and provide adaptation strategies that should be developed to take advantage of positive and mitigate negative changes. Projected climatic changes will influence agricultural productivity directly as well as indirectly due to changes in weed pressure, insect populations, and diseases. A warmer, longer growing season will change the crops and distribution of those crops grown within the region. An increase in the number of extreme temperature events (high daytime highs or nighttime lows) will decrease crop yields due to increased plant stress during critical pollination and grain fill periods. Adaptation strategies to reduce vulnerability of soil and water resources to projected climatic changes include increasing cropping intensity, reducing tillage intensity, and use of cover crops to provide surface cover to reduce erosion potential and improve nutrient and water use efficiency. Increased use of perennial forages, crop residue, and failed crops in integrated crop-livestock systems will add biological diversity and provide options for converting vegetation biomass into animal protein. Socio-economic changes will need to be incorporated into adaptation strategies planning to insure that sustaining ecosystem services and meeting desired production and conservation goals is accomplished. Education and extension services will be needed to transfer adaptive knowledge in a timely manner to producers in the field.' Author: 'Wienhold, Brian J.; Vigil, Merle F.; Hendrickson, John R.; Derner, Justin D.' DOI: 10.1007/s10584-017-1989-x Date: May 23 ISSN: 1573-1480 Journal: Climatic Change Title: Vulnerability of crops and croplands in the US Northern Plains to predicted climate change Type of Article: journal article Year: 2017 _record_number: 21604 _uuid: b1cbd298-7ce4-4106-a802-f8de95517c97 reftype: Journal Article child_publication: /article/10.1007/s10584-017-1989-x href: https://data.globalchange.gov/reference/b1cbd298-7ce4-4106-a802-f8de95517c97.yaml identifier: b1cbd298-7ce4-4106-a802-f8de95517c97 uri: /reference/b1cbd298-7ce4-4106-a802-f8de95517c97 - attrs: Abstract: 'This paper addresses temporal variability in bottom hypoxia in broad shallow areas of Mobile Bay, Alabama. Time-series data collected in the summer of 2004 from one station (mean depth of 4 m) exhibit bottom dissolved oxygen (DO) variations associated with various time scales of hours to days. Despite a large velocity shear, stratification was strong enough to suppress vertical mixing most of the time. Bottom DO was closely related to the vertical salinity gradient (ΔS). Hypoxia seldom occurred when ΔS (over 2.5 m) was <2 psu and occurred almost all the time when ΔS was >8 psu in the absence of extreme events like hurricanes. Oxygen balance between vertical mixing and total oxygen demand was considered for bottom water from which oxygen demand and diffusive oxygen flux were estimated. The estimated decay rates at 20°C ranging between 0.175–0.322 d−1 and the corresponding oxygen consumption as large as 7.4 g O2 m−2 d−1 fall at the upper limit of previously reported ranges. The diffusive oxygen flux and the corresponding vertical diffusivity estimated for well mixed conditions range between 8.6–9.5 g O2 m−2 d−1 and 2.6–2.9 m2 d−1, respectively. Mobile Bay hypoxia is likely to be associated with a large oxygen demand, supported by both water column and sediment oxygen demands, so that oxygen supply from surface water during destratification events would be quickly exhausted to return to hypoxic conditions within a few hours to days after destratification events are terminated.' Author: 'Park, Kyeong; Kim, Choong-Ki; Schroeder, William W.' DOI: 10.1007/bf02782967 Date: February 01 ISSN: 1559-2731 Issue: 1 Journal: Estuaries and Coasts Pages: 54-65 Title: 'Temporal variability in summertime bottom hypoxia in shallow areas of Mobile Bay, Alabama' Type of Article: journal article Volume: 30 Year: 2007 _record_number: 25540 _uuid: b3494553-a54b-400c-b1ad-6a114e3984a9 reftype: Journal Article child_publication: /article/10.1007/bf02782967 href: https://data.globalchange.gov/reference/b3494553-a54b-400c-b1ad-6a114e3984a9.yaml identifier: b3494553-a54b-400c-b1ad-6a114e3984a9 uri: /reference/b3494553-a54b-400c-b1ad-6a114e3984a9 - attrs: Author: 'Bebber, Daniel P.; Ramotowski, Mark A. T.; Gurr, Sarah J.' DOI: 10.1038/nclimate1990 Date: 11//print ISSN: 1758-678X Issue: 11 Journal: Nature Climate Change Pages: 985-988 Publisher: Nature Publishing Group Title: Crop pests and pathogens move polewards in a warming world Type of Article: Letter Volume: 3 Year: 2013 _record_number: 21157 _uuid: b3855765-38da-4fd9-8288-874a43b16607 reftype: Journal Article child_publication: /article/10.1038/nclimate1990 href: https://data.globalchange.gov/reference/b3855765-38da-4fd9-8288-874a43b16607.yaml identifier: b3855765-38da-4fd9-8288-874a43b16607 uri: /reference/b3855765-38da-4fd9-8288-874a43b16607 - attrs: Abstract: 'The Ogallala Aquifer Program (OAP) was created in 2003 with support from Congressmen from Kansas and Texas. The OAP is a research‐education consortium seeking solutions from problems arising from declining water availability from the Ogallala Aquifer in western Kansas and the Texas High Plains. The consortium is led by the Agricultural Research Service (ARS) laboratories in Bushland and Lubbock, TX, and the university partners are Kansas State University, Texas A&M AgriLife Research and Extension Service, Texas Tech University, and West Texas A&M University. The OAP has provided over $40 million to support research and education activities. About half of these funds were used to support permanent ARS scientists and ARS hired post‐docs. The other half were used by university scientists to supplement on‐going projects by providing support for supplies, sample analyses, temporary employees, etc. Initially, OAP activities were focused on seven priorities. In 2013, four objectives replaced the original seven priorities. A fifth priority was added in 2017. The current objectives are: 1) Develop and evaluate water management strategies and technologies that could reduce water withdrawals for irrigation by 20% in 2020 compared to 2012; 2) Develop and evaluate management strategies and technologies that would increase the productivity and profitability of dryland cropping systems; 3) Improve the understanding of hydrological and climatic factors that affect water use and agricultural profitability; 4) Determine the impacts of alternative water withdrawal/use policies on the economic viability of the agriculture industry of the Southern Ogallala Aquifer Region; and 5) Develop best management practices for production of high value and alternative crops for both dryland and irrigated systems. The objectives of the program and distribution of resources are decided by an executive committee with a member from each of the four universities, two from ARS, one from Bushland, and the other from Lubbock. Proposed projects that utilize resources from more than one participating institution, leverage existing resources, and address the stated objectives are more likely to be provided support. The impact of the OAP on research directed at agriculture on the High Plains has been recognized by three prestigious awards.' Author: 'Brauer, David; Devlin, Dan; Wagner, Kevin; Ballou, Mike; Hawkins, Dean; Lascano, Robert' DOI: 10.1111/j.1936-704X.2017.03256.x Issue: 1 Journal: Journal of Contemporary Water Research & Education Pages: 4-17 Title: 'Ogallala Aquifer Program: A catalyst for research and education to sustain the Ogallala Aquifer on the Southern High Plains (2003–2017)' Volume: 162 Year: 2017 _record_number: 25586 _uuid: b393353a-50d4-4e31-ade9-8d1dda1599c4 reftype: Journal Article child_publication: /article/10.1111/j.1936-704X.2017.03256.x href: https://data.globalchange.gov/reference/b393353a-50d4-4e31-ade9-8d1dda1599c4.yaml identifier: b393353a-50d4-4e31-ade9-8d1dda1599c4 uri: /reference/b393353a-50d4-4e31-ade9-8d1dda1599c4 - attrs: .reference_type: 10 Author: 'IJC,' Institution: International Joint Commission (IJC) Notes: 'ISBN: 978-1-927336-07-6' Pages: 96 Place Published: 'Washington, DC, and Ottowa, ON' Title: 'A balanced diet for Lake Erie: Reducing phosphorus loadings and harmful algal blooms' URL: http://www.ijc.org/files/publications/2014%20IJC%20LEEP%20REPORT.pdf Year: 2014 _record_number: 25561 _uuid: b5e71c98-ce5e-4949-babf-7c2dad78fb04 reftype: Report child_publication: /report/balanced-diet-lake-erie-reducing-phosphorus-loadings-harmful-algal-blooms href: https://data.globalchange.gov/reference/b5e71c98-ce5e-4949-babf-7c2dad78fb04.yaml identifier: b5e71c98-ce5e-4949-babf-7c2dad78fb04 uri: /reference/b5e71c98-ce5e-4949-babf-7c2dad78fb04 - attrs: .reference_type: 0 Abstract: 'Rising atmospheric CO2 will make Earth warmer, and many studies have inferred that this warming will cause droughts to become more widespread and severe. However, rising atmospheric CO2 also modifies stomatal conductance and plant water use, processes that are often are overlooked in impact analysis. We find that plant physiological responses to CO2 reduce predictions of future drought stress, and that this reduction is captured by using plant-centric rather than atmosphere-centric metrics from Earth system models (ESMs). The atmosphere-centric Palmer Drought Severity Index predicts future increases in drought stress for more than 70% of global land area. This area drops to 37% with the use of precipitation minus evapotranspiration (P-E), a measure that represents the water flux available to downstream ecosystems and humans. The two metrics yield consistent estimates of increasing stress in regions where precipitation decreases are more robust (southern North America, northeastern South America, and southern Europe). The metrics produce diverging estimates elsewhere, with P-E predicting decreasing stress across temperate Asia and central Africa. The differing sensitivity of drought metrics to radiative and physiological aspects of increasing CO2 partly explains the divergent estimates of future drought reported in recent studies. Further, use of ESM output in offline models may double-count plant feedbacks on relative humidity and other surface variables, leading to overestimates of future stress. The use of drought metrics that account for the response of plant transpiration to changing CO2, including direct use of P-E and soil moisture from ESMs, is needed to reduce uncertainties in future assessment.' Author: 'Swann, Abigail L. S.; Hoffman, Forrest M.; Koven, Charles D.; Randerson, James T.' DOI: 10.1073/pnas.1604581113 Date: 'September 6, 2016' Issue: 36 Journal: Proceedings of the National Academy of Sciences of the United States of America Pages: 10019-10024 Title: Plant responses to increasing CO2 reduce estimates of climate impacts on drought severity Volume: 113 Year: 2016 _record_number: 21010 _uuid: b673e746-6eca-4b77-8a62-e1ae9ed6380a reftype: Journal Article child_publication: /article/10.1073/pnas.1604581113 href: https://data.globalchange.gov/reference/b673e746-6eca-4b77-8a62-e1ae9ed6380a.yaml identifier: b673e746-6eca-4b77-8a62-e1ae9ed6380a uri: /reference/b673e746-6eca-4b77-8a62-e1ae9ed6380a - attrs: Author: 'Hu, Falong; Gan, Yantai; Cui, Hongyan; Zhao, Cai; Feng, Fuxue; Yin, Wen; Chai, Qiang' DOI: 10.1016/j.eja.2015.11.019 Date: 2016/03/01/ ISSN: 1161-0301 Journal: European Journal of Agronomy Keywords: Conservation tillage; No-till; Residue management; Strip intercropping; Soil moisture; Soil respiration; C sequestration Pages: 9-17 Title: Intercropping maize and wheat with conservation agriculture principles improves water harvesting and reduces carbon emissions in dry areas Volume: 74 Year: 2016 _record_number: 25562 _uuid: b846f13b-5c19-48da-b470-46acbb146573 reftype: Journal Article child_publication: /article/10.1016/j.eja.2015.11.019 href: https://data.globalchange.gov/reference/b846f13b-5c19-48da-b470-46acbb146573.yaml identifier: b846f13b-5c19-48da-b470-46acbb146573 uri: /reference/b846f13b-5c19-48da-b470-46acbb146573 - attrs: .reference_type: 0 Abstract: 'Here we present the results from an intercomparison of multiple global gridded crop models (GGCMs) within the framework of the Agricultural Model Intercomparison and Improvement Project and the Inter-Sectoral Impacts Model Intercomparison Project. Results indicate strong negative effects of climate change, especially at higher levels of warming and at low latitudes; models that include explicit nitrogen stress project more severe impacts. Across seven GGCMs, five global climate models, and four representative concentration pathways, model agreement on direction of yield changes is found in many major agricultural regions at both low and high latitudes; however, reducing uncertainty in sign of response in mid-latitude regions remains a challenge. Uncertainties related to the representation of carbon dioxide, nitrogen, and high temperature effects demonstrated here show that further research is urgently needed to better understand effects of climate change on agricultural production and to devise targeted adaptation strategies.' Author: 'Rosenzweig, Cynthia; Elliott, Joshua; Deryng, Delphine; Ruane, Alex C.; Müller, Christoph; Arneth, Almut; Boote, Kenneth J.; Folberth, Christian; Glotter, Michael; Khabarov, Nikolay; Neumann, Kathleen; Piontek, Franziska; Pugh, Thomas A. M.; Schmid, Erwin; Stehfest, Elke; Yang, Hong; Jones, James W.' DOI: 10.1073/pnas.1222463110 Date: 'March 4, 2014' Issue: 9 Journal: Proceedings of the National Academy of Sciences of the United States of America Pages: 3268-3273 Title: Assessing agricultural risks of climate change in the 21st century in a global gridded crop model intercomparison Volume: 111 Year: 2014 _record_number: 19789 _uuid: b84b193b-ca98-479c-b5ef-fe94e5ffd39c reftype: Journal Article child_publication: /article/10.1073/pnas.1222463110 href: https://data.globalchange.gov/reference/b84b193b-ca98-479c-b5ef-fe94e5ffd39c.yaml identifier: b84b193b-ca98-479c-b5ef-fe94e5ffd39c uri: /reference/b84b193b-ca98-479c-b5ef-fe94e5ffd39c - attrs: Author: 'Auffhammer, Maximilian; Schlenker, Wolfram' DOI: 10.1016/j.eneco.2014.09.010 Date: 2014/11/01/ ISSN: 0140-9883 Journal: Energy Economics Keywords: Climate change; Adaptation; Integrated assessment; Reduced form studies Pages: 555-561 Title: Empirical studies on agricultural impacts and adaptation Volume: 46 Year: 2014 _record_number: 26125 _uuid: b87160f1-339b-40c3-bae3-519a3cf5c2be reftype: Journal Article child_publication: /article/10.1016/j.eneco.2014.09.010 href: https://data.globalchange.gov/reference/b87160f1-339b-40c3-bae3-519a3cf5c2be.yaml identifier: b87160f1-339b-40c3-bae3-519a3cf5c2be uri: /reference/b87160f1-339b-40c3-bae3-519a3cf5c2be - attrs: .reference_type: 0 Author: 'Black, H.' DOI: 10.1289/ehp.116-a390 Issue: 9 Journal: Environmental Health Perspectives Pages: A390-393 Title: 'Unnatural disaster: Human factors in the Mississippi floods' Volume: 116 Year: 2008 _chapter: '["Ch. 5: Transportation FINAL"]' _record_number: 1731 _uuid: b8d001bf-c47f-40f8-91f1-a252a46381b8 reftype: Journal Article child_publication: /article/10.1289/ehp.116-a390 href: https://data.globalchange.gov/reference/b8d001bf-c47f-40f8-91f1-a252a46381b8.yaml identifier: b8d001bf-c47f-40f8-91f1-a252a46381b8 uri: /reference/b8d001bf-c47f-40f8-91f1-a252a46381b8 - attrs: Abstract: 'The majority of irrigated cropland in the U.S. is watered with sprinkler irrigation systems. These systems are inherently more efficient in distributing water than furrow or flood irrigation. Appropriate system design of sprinkler irrigation equipment, application methods, and farming practices (e.g., furrow diking) enhance crop water use efficiency (WUE) by minimizing irrigation losses and improving soil water storage. For years, the paradigm for best irrigation management practices included uniform application over an entire field, even though abiotic (soils, slope, aspect, etc.) and biotic (insect pressure, plant disease) factors often cause spatial variations in water use and yield potential. However, emerging technologies such as wireless communication coupled with soil water and plant sensors, commercially available variable-rate irrigation (VRI) equipment, and the development of algorithms for computational data processing are shifting this paradigm toward variable-rate management as a means to enhance crop WUE. This article focuses on the potential of site-specific VRI management (SS-VRIM) as a tool for enhancing WUE and the challenges encountered.' Author: 'O’Shaughnessy, Susan A; Evett, Steven R.; Andrade, Alejandro; Workneh, Fekede; Price, Jacob A.; Rush, Charles M.' DOI: 10.13031/trans.59.11165 ISSN: 2151-0032 Issue: 1 Journal: Transactions of the ASABE Keywords: Irrigation management; Moving irrigation systems; Prescription maps; Sensor networks; Variable-rate irrigation. Pages: 239 Place Published: 'St. Joseph, MI' Publisher: ASABE Title: Site-specific variable-rate irrigation as a means to enhance water use efficiency Volume: 59 Year: 2016 _record_number: 25543 _uuid: b9ad6625-c741-4e59-a752-e0c5569ced9f reftype: Journal Article child_publication: /article/10.13031/trans.59.11165 href: https://data.globalchange.gov/reference/b9ad6625-c741-4e59-a752-e0c5569ced9f.yaml identifier: b9ad6625-c741-4e59-a752-e0c5569ced9f uri: /reference/b9ad6625-c741-4e59-a752-e0c5569ced9f - attrs: Abstract: 'Aquifer overexploitation could significantly impact crop production in the United States because 60% of irrigation relies on groundwater. Groundwater depletion in the irrigated High Plains and California Central Valley accounts for ∼50% of groundwater depletion in the United States since 1900. A newly developed High Plains recharge map shows that high recharge in the northern High Plains results in sustainable pumpage, whereas lower recharge in the central and southern High Plains has resulted in focused depletion of 330 km3 of fossil groundwater, mostly recharged during the past 13,000 y. Depletion is highly localized with about a third of depletion occurring in 4% of the High Plains land area. Extrapolation of the current depletion rate suggests that 35% of the southern High Plains will be unable to support irrigation within the next 30 y. Reducing irrigation withdrawals could extend the lifespan of the aquifer but would not result in sustainable management of this fossil groundwater. The Central Valley is a more dynamic, engineered system, with north/south diversions of surface water since the 1950s contributing to ∼7× higher recharge. However, these diversions are regulated because of impacts on endangered species. A newly developed Central Valley Hydrologic Model shows that groundwater depletion since the 1960s, totaling 80 km3, occurs mostly in the south (Tulare Basin) and primarily during droughts. Increasing water storage through artificial recharge of excess surface water in aquifers by up to 3 km3 shows promise for coping with droughts and improving sustainability of groundwater resources in the Central Valley.' Author: 'Scanlon, Bridget R.; Faunt, Claudia C.; Longuevergne, Laurent; Reedy, Robert C.; Alley, William M.; McGuire, Virginia L.; McMahon, Peter B.' DOI: 10.1073/pnas.1200311109 Date: 'June 12, 2012' Issue: 24 Journal: Proceedings of the National Academy of Sciences of the United States of America Pages: 9320-9325 Title: Groundwater depletion and sustainability of irrigation in the US High Plains and Central Valley Volume: 109 Year: 2012 _record_number: 21529 _uuid: bbb70780-07ef-4083-a3ff-8dc8d33b1e62 reftype: Journal Article child_publication: /article/10.1073/pnas.1200311109 href: https://data.globalchange.gov/reference/bbb70780-07ef-4083-a3ff-8dc8d33b1e62.yaml identifier: bbb70780-07ef-4083-a3ff-8dc8d33b1e62 uri: /reference/bbb70780-07ef-4083-a3ff-8dc8d33b1e62 - attrs: .reference_type: 10 Author: 'Marshall, Elizabeth; Marcel Aillery; Scott Malcolm; Ryan Williams' Institution: USDA Economic Research Service Pages: 119 Place Published: 'Washington, DC' Series Volume: Economic Research Report No. (ERR-201) Title: 'Climate Change, Water Scarcity, and Adaptation in the U.S. Fieldcrop Sector' URL: https://www.ers.usda.gov/publications/pub-details/?pubid=45496 Year: 2015 _record_number: 23629 _uuid: bc6c6b92-e049-4b86-b772-8d35032d3cb0 reftype: Report child_publication: /report/climate-change-water-scarcity-adaptation-us-fieldcrop-sector href: https://data.globalchange.gov/reference/bc6c6b92-e049-4b86-b772-8d35032d3cb0.yaml identifier: bc6c6b92-e049-4b86-b772-8d35032d3cb0 uri: /reference/bc6c6b92-e049-4b86-b772-8d35032d3cb0 - attrs: Abstract: 'Shifting dietary patterns for environmental benefits has long been advocated. In relation to mitigating climate change, the debate has been more recent, with a growing interest from policy makers, academics, and society. Many researchers have highlighted the need for changes to food consumption in order to achieve the required greenhouse gas (GHG) reductions. So far, food consumption has not been anchored in climate change policy to the same extent as energy production and usage, nor has it been considered within the context of achieving GHG targets to a level where tangible outputs are available. Here, we address those issues by performing a relatively simple analysis that considers the extent to which one food exchange could contribute to achieving GHG reduction targets in the United States (US). We use the targeted reduction for 2020 as a reference and apply published Life Cycle Assessment data on GHG emissions to beans and beef consumed in the US. We calculate the difference in GHGs resulting from the replacement of beef with beans in terms of both calories and protein. Our results demonstrate that substituting one food for another, beans for beef, could achieve approximately 46 to 74% of the reductions needed to meet the 2020 GHG target for the US. In turn, this shift would free up 42% of US cropland (692,918 km2). While not currently recognized as a climate policy option, the “beans for beef” scenario offers significant climate change mitigation and other environmental benefits, illustrating the high potential of animal to plant food shifts.' Author: 'Harwatt, Helen; Sabaté, Joan; Eshel, Gidon; Soret, Sam; Ripple, William' DOI: 10.1007/s10584-017-1969-1 Date: July 01 ISSN: 1573-1480 Issue: 1 Journal: Climatic Change Pages: 261-270 Title: Substituting beans for beef as a contribution toward US climate change targets Type of Article: journal article Volume: 143 Year: 2017 _record_number: 25564 _uuid: be314fe1-7cf8-4cab-8f02-295cd2c45a85 reftype: Journal Article child_publication: /article/10.1007/s10584-017-1969-1 href: https://data.globalchange.gov/reference/be314fe1-7cf8-4cab-8f02-295cd2c45a85.yaml identifier: be314fe1-7cf8-4cab-8f02-295cd2c45a85 uri: /reference/be314fe1-7cf8-4cab-8f02-295cd2c45a85 - attrs: Author: 'Bassu, Simona; Brisson, Nadine; Durand, Jean-Louis; Boote, Kenneth; Lizaso, Jon; Jones, James W.; Rosenzweig, Cynthia; Ruane, Alex C.; Adam, Myriam; Baron, Christian; Basso, Bruno; Biernath, Christian; Boogaard, Hendrik; Conijn, Sjaak; Corbeels, Marc; Deryng, Delphine; De Sanctis, Giacomo; Gayler, Sebastian; Grassini, Patricio; Hatfield, Jerry; Hoek, Steven; Izaurralde, Cesar; Jongschaap, Raymond; Kemanian, Armen R.; Kersebaum, K. Christian; Kim, Soo-Hyung; Kumar, Naresh S.; Makowski, David; Müller, Christoph; Nendel, Claas; Priesack, Eckart; Pravia, Maria Virginia; Sau, Federico; Shcherbak, Iurii; Tao, Fulu; Teixeira, Edmar; Timlin, Dennis; Waha, Katharina' DOI: 10.1111/gcb.12520 ISSN: 1365-2486 Issue: 7 Journal: Global Change Biology Keywords: '[CO2]; AgMIP; climate; maize; model intercomparison; simulation; temperature; uncertainty' Pages: 2301-2320 Title: How do various maize crop models vary in their responses to climate change factors? Volume: 20 Year: 2014 _record_number: 23499 _uuid: bf744ee3-227b-47be-b50f-ab4856355235 reftype: Journal Article child_publication: /article/10.1111/gcb.12520 href: https://data.globalchange.gov/reference/bf744ee3-227b-47be-b50f-ab4856355235.yaml identifier: bf744ee3-227b-47be-b50f-ab4856355235 uri: /reference/bf744ee3-227b-47be-b50f-ab4856355235 - attrs: .reference_type: 0 Author: "Chakraborty, S.\rNewton, A.C." DOI: 10.1111/j.1365-3059.2010.02411.x ISSN: 1365-3059 Issue: 1 Journal: Plant Pathology Pages: 2-14 Title: 'Climate change, plant diseases and food security: An overview' Volume: 60 Year: 2011 _chapter: '["Ch. 9: Human Health FINAL"]' _record_number: 344 _uuid: c04c5716-c318-4a4c-9774-ae61ce97d305 reftype: Journal Article child_publication: /article/10.1111/j.1365-3059.2010.02411.x href: https://data.globalchange.gov/reference/c04c5716-c318-4a4c-9774-ae61ce97d305.yaml identifier: c04c5716-c318-4a4c-9774-ae61ce97d305 uri: /reference/c04c5716-c318-4a4c-9774-ae61ce97d305 - attrs: Author: 'Hammac, W. Ashley; Stott, Diane E.; Karlen, Douglas L.; Cambardella, Cynthia A.' DOI: 10.2136/sssaj2016.09.0282 Issue: 6 Journal: Soil Science Society of America Journal Language: English Pages: 1638-1652 Title: 'Crop, tillage, and landscape effects on near-surface soil quality indices in Indiana' Volume: 80 Year: 2016 _record_number: 23527 _uuid: c3b903a1-fbe2-40f2-88f6-6fa5b52608cb reftype: Journal Article child_publication: /article/10.2136/sssaj2016.09.0282 href: https://data.globalchange.gov/reference/c3b903a1-fbe2-40f2-88f6-6fa5b52608cb.yaml identifier: c3b903a1-fbe2-40f2-88f6-6fa5b52608cb uri: /reference/c3b903a1-fbe2-40f2-88f6-6fa5b52608cb - attrs: Abstract: 'Observed changes in intense precipitation (e.g., the frequency of very heavy precipitation or the upper 0.3% of daily precipitation events) have been analyzed for over half of the land area of the globe. These changes have been linked to changes in intense precipitation for three transient climate model simulations, all with greenhouse gas concentrations increasing during the twentieth and twenty-first centuries and doubling in the later part of the twenty-first century. It was found that both the empirical evidence from the period of instrumental observations and model projections of a greenhouse-enriched atmosphere indicate an increasing probability of intense precipitation events for many extratropical regions including the United States. Although there can be ambiguity as to the impact of more frequent heavy precipitation events, the thresholds of the definitions of these events were raised here, such that they are likely to be disruptive. Unfortunately, reliable assertions of very heavy and extreme precipitation changes are possible only for regions with dense networks due to the small radius of correlation for many intense precipitation events.' Author: 'Groisman, Pavel Ya.; Richard W. Knight; David R. Easterling; Thomas R. Karl; Gabriele C. Hegerl; Vyacheslav N. Razuvaev' DOI: 10.1175/jcli3339.1 Issue: 9 Journal: Journal of Climate Pages: 1326-1350 Title: Trends in intense precipitation in the climate record Volume: 18 Year: 2005 _record_number: 23525 _uuid: c41f498d-369f-4150-bcb7-3b3fd140808d reftype: Journal Article child_publication: /article/10.1175/jcli3339.1 href: https://data.globalchange.gov/reference/c41f498d-369f-4150-bcb7-3b3fd140808d.yaml identifier: c41f498d-369f-4150-bcb7-3b3fd140808d uri: /reference/c41f498d-369f-4150-bcb7-3b3fd140808d - attrs: Author: 'Blanc, Elodie; Strzepek, Kenneth; Schlosser, Adam; Jacoby, Henry; Gueneau, Arthur; Fant, Charles; Rausch, Sebastian; Reilly, John' DOI: 10.1002/2013EF000214 ISSN: 2328-4277 Issue: 4 Journal: Earth's Future Keywords: water requirements; climate change; water stress; water resources; United States; integrated assessment; 1655 Water cycles; 1807 Climate impacts; 1847 Modeling; 1880 Water management; 1857 Reservoirs (surface) Pages: 197-224 Publisher: 'Wiley Periodicals, Inc.' Title: Modeling U.S. water resources under climate change Volume: 2 Year: 2014 _record_number: 23504 _uuid: c4c53fb2-498c-43b7-9dd0-3ca34d80cd12 reftype: Journal Article child_publication: /article/10.1002/2013EF000214 href: https://data.globalchange.gov/reference/c4c53fb2-498c-43b7-9dd0-3ca34d80cd12.yaml identifier: c4c53fb2-498c-43b7-9dd0-3ca34d80cd12 uri: /reference/c4c53fb2-498c-43b7-9dd0-3ca34d80cd12 - attrs: .reference_type: 10 Author: 'Kuttner, Hanns' Institution: Hudson Institute Pages: 29 Place Published: 'Washington, DC' Series Volume: Briefing Paper Title: The Economic Impact of Rural Broadband URL: https://www.hudson.org/research/12428-the-economic-impact-of-rural-broadband Year: 2016 _record_number: 23625 _uuid: c5044534-5f99-4dfb-9b6a-dd89bc6b08d0 reftype: Report child_publication: /report/economic-impact-rural-broadband href: https://data.globalchange.gov/reference/c5044534-5f99-4dfb-9b6a-dd89bc6b08d0.yaml identifier: c5044534-5f99-4dfb-9b6a-dd89bc6b08d0 uri: /reference/c5044534-5f99-4dfb-9b6a-dd89bc6b08d0 - attrs: Abstract: 'The sensitivity of agricultural productivity to climate has not been sufficiently quantified. The total factor productivity (TFP) of the US agricultural economy has grown continuously for over half a century, with most of the growth typically attributed to technical change. Many studies have examined the effects of local climate on partial productivity measures such as crop yields and economic returns, but these measures cannot account for national-level impacts. Quantifying the relationships between TFP and climate is critical to understanding whether current US agricultural productivity growth will continue into the future. We analyze correlations between regional climate variations and national TFP changes, identify key climate indices, and build a multivariate regression model predicting the growth of agricultural TFP based on a physical understanding of its historical relationship with climate. We show that temperature and precipitation in distinct agricultural regions and seasons explain ∼70% of variations in TFP growth during 1981–2010. To date, the aggregate effects of these regional climate trends on TFP have been outweighed by improvements in technology. Should these relationships continue, however, the projected climate changes could cause TFP to drop by an average 2.84 to 4.34% per year under medium to high emissions scenarios. As a result, TFP could fall to pre-1980 levels by 2050 even when accounting for present rates of innovation. Our analysis provides an empirical foundation for integrated assessment by linking regional climate effects to national economic outcomes, offering a more objective resource for policy making.' Author: 'Liang, Xin-Zhong; Wu, You; Chambers, Robert G.; Schmoldt, Daniel L.; Gao, Wei; Liu, Chaoshun; Liu, Yan-An; Sun, Chao; Kennedy, Jennifer A.' DOI: 10.1073/pnas.1615922114 Date: 'March 21, 2017' Issue: 12 Journal: Proceedings of the National Academy of Sciences of the United States of America Pages: E2285-E2292 Title: Determining climate effects on US total agricultural productivity Volume: 114 Year: 2017 _record_number: 21170 _uuid: c5857041-2594-47cf-a6bc-3fab052fa903 reftype: Journal Article child_publication: /article/10.1073/pnas.1615922114 href: https://data.globalchange.gov/reference/c5857041-2594-47cf-a6bc-3fab052fa903.yaml identifier: c5857041-2594-47cf-a6bc-3fab052fa903 uri: /reference/c5857041-2594-47cf-a6bc-3fab052fa903 - attrs: .reference_type: 9 Edition: Gen. Tech. Rep. WO-93b Editor: 'Vose, James; Clark, J.S.; Luce, Charlie; Patel-Weynand, Toral' Number of Pages: 289 Place Published: 'Washington, DC' Publisher: 'U.S. Department of Agriculture, Forest Service, Washington Office' Series Volume: Gen. Tech. Rep. WO-93b Title: 'Effects of Drought on Forests and Rangelands in the United States: A Comprehensive Science Synthesis' URL: http://www.treesearch.fs.fed.us/pubs/50261 Year: 2016 _record_number: 20154 _uuid: c6b4dffc-de18-4d19-b6a8-a2bc29448f09 reftype: Edited Book child_publication: /report/gtr_wo93b href: https://data.globalchange.gov/reference/c6b4dffc-de18-4d19-b6a8-a2bc29448f09.yaml identifier: c6b4dffc-de18-4d19-b6a8-a2bc29448f09 uri: /reference/c6b4dffc-de18-4d19-b6a8-a2bc29448f09 - attrs: Abstract: 'Removal of corn (Zea mays L.) residues at high rates for biofuel and other off‐farm uses may negatively impact soil and the environment in the long term. Biomass removal from perennial warm‐season grasses (WSGs) grown in marginally productive lands could be an alternative to corn residue removal as biofuel feedstocks while controlling water and wind erosion, sequestering carbon (C), cycling water and nutrients, and enhancing other soil ecosystem services. We compared wind and water erosion potential, soil compaction, soil hydraulic properties, soil organic C (SOC), and soil fertility between biomass removal from WSGs and corn residue removal from rainfed no‐till continuous corn on a marginally productive site on a silty clay loam in eastern Nebraska after 2 and 3 years of management. The field‐scale treatments were as follows: (i) switchgrass (Panicum virgatum L.), (ii) big bluestem (Andropogon gerardii Vitman), and (iii) low‐diversity grass mixture [big bluestem, indiangrass (Sorghastrum nutans (L.) Nash), and sideoats grama (Bouteloua curtipendula (Michx.) Torr.)], and (iv) 50% corn residue removal with three replications. Across years, corn residue removal increased wind‐erodible fraction from 41% to 86% and reduced wet aggregate stability from 1.70 to 1.15 mm compared with WSGs in the upper 7.5 cm soil depth. Corn residue removal also reduced water retention by 15% between −33 and −300 kPa potentials and plant‐available water by 25% in the upper 7.5 cm soil depth. However, corn residue removal did not affect final water infiltration, SOC concentration, soil fertility, and other properties. Overall, corn residue removal increases erosion potential and reduces water retention shortly after removal, suggesting that biomass removal from perennial WSGs is a desirable alternative to corn residue removal for biofuel production and maintenance of soil ecosystem services.' Author: 'Blanco‐Canqui, Humberto; Mitchell, Robert B.; Jin, Virginia L.; Schmer, Marty R.; Eskridge, Kent M.' DOI: 10.1111/gcbb.12436 Issue: 9 Journal: GCB Bioenergy Pages: 1510-1521 Title: 'Perennial warm‐season grasses for producing biofuel and enhancing soil properties: An alternative to corn residue removal' Volume: 9 Year: 2017 _record_number: 25584 _uuid: c6d7ea28-baeb-44cc-bef0-4e7d8bebe087 reftype: Journal Article child_publication: /article/10.1111/gcbb.12436 href: https://data.globalchange.gov/reference/c6d7ea28-baeb-44cc-bef0-4e7d8bebe087.yaml identifier: c6d7ea28-baeb-44cc-bef0-4e7d8bebe087 uri: /reference/c6d7ea28-baeb-44cc-bef0-4e7d8bebe087 - attrs: .reference_type: 7 Author: 'Gamble, Janet L.; Balbus, John; Berger, Martha; Bouye, Karen; Campbell, Vince; Chief, Karletta; Conlon, Kathryn; Crimmins, Allison; Flanagan, Barry; Gonzalez-Maddux, Cristina; Hallisey, Elaine; Hutchins, Sonja; Jantarasami, Lesley; Khoury, Samar; Kiefer, Max; Kolling, Jessica; Lynn, Kathy; Manangan, Arie; McDonald, Marian; Morello-Frosch, Rachel; Redsteer, Margaret Hiza; Sheffield, Perry; Thigpen Tart, Kimberly; Watson, Joanna; Whyte, Kyle Powys; Wolkin, Amy Funk' Book Title: 'The Impacts of Climate Change on Human Health in the United States: A Scientific Assessment' DOI: 10.7930/J0Q81B0T Pages: 247–286 Place Published: 'Washington, DC' Publisher: U.S. Global Change Research Program Title: 'Ch. 9: Populations of concern' Year: 2016 _record_number: 19381 _uuid: c76d7935-9da3-4c4b-9186-86dc658bcc74 reftype: Book Section child_publication: /report/usgcrp-climate-human-health-assessment-2016/chapter/populations-of-concern href: https://data.globalchange.gov/reference/c76d7935-9da3-4c4b-9186-86dc658bcc74.yaml identifier: c76d7935-9da3-4c4b-9186-86dc658bcc74 uri: /reference/c76d7935-9da3-4c4b-9186-86dc658bcc74 - attrs: Abstract: 'The Southwestern US is a five-state region that has supported animal agriculture since the late 16th Century when European settlers crossed the Rio Grande into present day west Texas and southern New Mexico with herds of cattle, sheep, goats and horses. For the past 400 years the rangeland livestock industry, in its many forms and manifestations, has developed management strategies and conservation practices that impart resilience to the climatic extremes, especially prolonged droughts, that are common and extensive across this region. Livestock production from rangelands in the southwest (SW) is adapted to low rainfall and high ambient temperatures, but will have to continue to adapt management strategies, such as reduced stocking rates, proper grazing management practices, employing animal genetics suited to arid environments with less herbaceous production, erosion control conservation practices, and alternative forage supplies, in an increasingly arid and variable climatic environment. Even though the aging demographics of western ranchers could be a deterrent to implementing various adaptations, there are examples of creative management coalitions to cope with climatic change that are emerging in the SW that can serve as instructive examples. More importantly, there are additional opportunities for incorporation of transformative practices and technologies that can sustain animal agriculture in the SW in a warmer environment. Animal agriculture in the SW is inherently resilient, and has the capacity to adapt and transform as needed to the climatic changes that are now occurring and will continue to occur across this region. However, producers and land managers will need to thoroughly understand the vulnerabilities and sensitivities that face them as well as the ecological characteristics of their specific landscapes in order to cope with the emerging climatic changes across the SW region.' Author: 'Havstad, K. M.; Brown, J. R.; Estell, R.; Elias, E.; Rango, A.; Steele, C.' DOI: 10.1007/s10584-016-1834-7 Date: November 08 ISSN: 1573-1480 Journal: Climatic Change Title: Vulnerabilities of southwestern U.S. rangeland-based animal agriculture to climate change Type of Article: journal article Year: 2016 _record_number: 23531 _uuid: c779538d-b066-4e38-8527-ff3f7552f26e reftype: Journal Article child_publication: /article/10.1007/s10584-016-1834-7 href: https://data.globalchange.gov/reference/c779538d-b066-4e38-8527-ff3f7552f26e.yaml identifier: c779538d-b066-4e38-8527-ff3f7552f26e uri: /reference/c779538d-b066-4e38-8527-ff3f7552f26e - attrs: Abstract: 'While most models project large increases in agricultural drought frequency and severity in the 21st century, significant uncertainties exist in these projections. Here, we compare the model-simulated changes with observation-based estimates since 1900 and examine model projections from both the Coupled Model Inter-comparison Project Phase 3 (CMIP3) and Phase 5 (CMIP5). We use the self-calibrated Palmer Drought Severity Index with the Penman-Monteith potential evapotranspiration (PET) (sc_PDSI_pm) as a measure of agricultural drought. Results show that estimated long-term changes in global and hemispheric drought areas from 1900 to 2014 are consistent with the CMIP3 and CMIP5 model-simulated response to historical greenhouse gases and other external forcing, with the short-term variations within the model spread of internal variability, despite that regional changes are still dominated by internal variability. Both the CMIP3 and CMIP5 models project continued increases (by 50–200 % in a relative sense) in the 21st century in global agricultural drought frequency and area even under low-moderate emissions scenarios, resulting from a decrease in the mean and flattening of the probability distribution functions (PDFs) of the sc_PDSI_pm. This flattening is especially pronounced over the Northern Hemisphere land, leading to increased drought frequency even over areas with increasing sc_PDSI_pm. Large differences exist in the CMIP3 and CMIP5 model-projected precipitation and drought changes over the Sahel and northern Australia due to uncertainties in simulating the African Inter-tropical convergence zone (ITCZ) and the subsidence zone over northern Australia, while the wetting trend over East Africa reflects a robust response of the Indian Ocean ITCZ seen in both the CMIP3 and CMIP5 models. While warming-induced PET increases over all latitudes and precipitation decreases over subtropical land are responsible for mean sc_PDSI_pm decreases, the exact cause of its PDF flattening needs further investigation.' Author: 'Zhao, Tianbao; Dai, Aiguo' DOI: 10.1007/s10584-016-1742-x Date: October 01 ISSN: 1573-1480 Issue: 3 Journal: Climatic Change Pages: 535-548 Title: 'Uncertainties in historical changes and future projections of drought. Part II: Model-simulated historical and future drought changes' Type of Article: journal article Volume: 144 Year: 2017 _record_number: 23595 _uuid: c8348455-9866-465b-8291-35119f3eb615 reftype: Journal Article child_publication: /article/10.1007/s10584-016-1742-x href: https://data.globalchange.gov/reference/c8348455-9866-465b-8291-35119f3eb615.yaml identifier: c8348455-9866-465b-8291-35119f3eb615 uri: /reference/c8348455-9866-465b-8291-35119f3eb615 - attrs: Author: 'Hatfield, Jerry L.; Prueger, John H.' DOI: 10.1016/j.wace.2015.08.001 Date: 2015/12/01/ ISSN: 2212-0947 Issue: Part A Journal: Weather and Climate Extremes Keywords: Temperature stress; Crop production; Pollination; Phenology; Plant growth Pages: 4-10 Title: 'Temperature extremes: Effect on plant growth and development' Volume: 10 Year: 2015 _record_number: 23528 _uuid: c84eac2e-049f-4d86-8019-e72c98bd8fbf reftype: Journal Article child_publication: /article/10.1016/j.wace.2015.08.001 href: https://data.globalchange.gov/reference/c84eac2e-049f-4d86-8019-e72c98bd8fbf.yaml identifier: c84eac2e-049f-4d86-8019-e72c98bd8fbf uri: /reference/c84eac2e-049f-4d86-8019-e72c98bd8fbf - attrs: Author: 'Asseng, S.; Ewert, F.; Martre, P.; Rötter, R. P.; Lobell, D. B.; Cammarano, D.; Kimball, B. A.; Ottman, M. J.; Wall, G. W.; White, J. W.; Reynolds, M. P.; Alderman, P. D.; Prasad, P. V. V.; Aggarwal, P. K.; Anothai, J.; Basso, B.; Biernath, C.; Challinor, A. J.; De Sanctis, G.; Doltra, J.; Fereres, E.; Garcia-Vila, M.; Gayler, S.; Hoogenboom, G.; Hunt, L. A.; Izaurralde, R. C.; Jabloun, M.; Jones, C. D.; Kersebaum, K. C.; Koehler, A. K.; Müller, C.; Naresh Kumar, S.; Nendel, C.; O’Leary, G.; Olesen, J. E.; Palosuo, T.; Priesack, E.; Eyshi Rezaei, E.; Ruane, A. C.; Semenov, M. A.; Shcherbak, I.; Stöckle, C.; Stratonovitch, P.; Streck, T.; Supit, I.; Tao, F.; Thorburn, P. J.; Waha, K.; Wang, E.; Wallach, D.; Wolf, J.; Zhao, Z.; Zhu, Y.' DOI: 10.1038/nclimate2470 Date: 12/22/online Journal: Nature Climate Change Pages: 143-147 Publisher: Nature Publishing Group Title: Rising temperatures reduce global wheat production Volume: 5 Year: 2015 _record_number: 23497 _uuid: c918cb9e-c955-497f-b242-e68359b56b77 reftype: Journal Article child_publication: /article/10.1038/nclimate2470 href: https://data.globalchange.gov/reference/c918cb9e-c955-497f-b242-e68359b56b77.yaml identifier: c918cb9e-c955-497f-b242-e68359b56b77 uri: /reference/c918cb9e-c955-497f-b242-e68359b56b77 - attrs: Abstract: 'Estimating the impact of heat waves on human mortality is key when it comes to the design of effective climate change adaptation measures. As the usual approach—relying on detailed health data in form of hospital records—is not feasible for many countries, a different methodology is needed. This work presents such an approach. Based on singular spectrum analysis and using monthly mortality rates—partly ranging back to 1960—it derives excess mortality estimates for 27 European countries. Excess mortality is then regressed against a heat wave measure in order to assess the health impacts of extreme heat. The analysis demonstrates that many European countries are severely affected by heat waves: On average, 0.61%—and up to 1.14% in case of Portugal—of all deaths are caused by extreme heat events. This finding confirms the understanding that climate change is a major environmental risk to public health: In the 27 examined European countries, over 28,000 people die every year due to exposure to extreme heat.' Author: 'Merte, Steffen' DOI: 10.1007/s10584-017-1937-9 Date: June 01 ISSN: 1573-1480 Issue: 3 Journal: Climatic Change Pages: 321-330 Title: Estimating heat wave-related mortality in Europe using singular spectrum analysis Type of Article: journal article Volume: 142 Year: 2017 _record_number: 23562 _uuid: c97a2716-9162-4e1d-ad39-ca1589a8d760 reftype: Journal Article child_publication: /article/10.1007/s10584-017-1937-9 href: https://data.globalchange.gov/reference/c97a2716-9162-4e1d-ad39-ca1589a8d760.yaml identifier: c97a2716-9162-4e1d-ad39-ca1589a8d760 uri: /reference/c97a2716-9162-4e1d-ad39-ca1589a8d760 - attrs: Abstract: 'Long-term warming trends across the globe have shifted the distribution of temperature variability, such that what was once classified as extreme heat relative to local mean conditions has become more common. This is also true for agricultural regions, where exposure to extreme heat, particularly during key growth phases such as the reproductive period, can severely damage crop production in ways that are not captured by most crop models. Here, we analyze exposure of crops to physiologically critical temperatures in the reproductive stage ( T crit ), across the global harvested areas of maize, rice, soybean and wheat. Trends for the 1980–2011 period show a relatively weak correspondence ( r = 0.19) between mean growing season temperature and T crit exposure trends, emphasizing the importance of separate analyses for T crit . Increasing T crit exposure in the past few decades is apparent for wheat in Central and South Asia and South America, and for maize in many diverse locations across the globe. Maize had the highest percentage (15%) of global harvested area exposed to at least five reproductive days over T crit in the 2000s, although this value is somewhat sensitive to the exact temperature used for the threshold. While there was relatively little sustained exposure to reproductive days over T crit for the other crops in the past few decades, all show increases with future warming. Using projections from climate models we estimate that by the 2030s, 31, 16, and 11% respectively of maize, rice, and wheat global harvested area will be exposed to at least five reproductive days over T crit in a typical year, with soybean much less affected. Both maize and rice exhibit non-linear increases with time, with total area exposed for rice projected to grow from 8% in the 2000s to 27% by the 2050s, and maize from 15 to 44% over the same period. While faster development should lead to earlier flowering, which would reduce reproductive extreme heat exposure for wheat on a global basis, this would have little impact for the other crops. Therefore, regardless of the impact of other global change factors (such as increasing atmospheric CO 2 ), reproductive extreme heat exposure will pose risks for global crop production without adaptive measures such as changes in sowing dates, crop and variety switching, expansion of irrigation, and agricultural expansion into cooler areas.' Author: 'Gourdji, Sharon M. ; Adam M. Sibley; David B. Lobell' DOI: 10.1088/1748-9326/8/2/024041 ISSN: 1748-9326 Issue: 2 Journal: Environmental Research Letters Pages: 024041 Title: 'Global crop exposure to critical high temperatures in the reproductive period: Historical trends and future projections' Volume: 8 Year: 2013 _record_number: 23613 _uuid: c9b7bbf7-7002-4a58-ad10-adb2f5d29b47 reftype: Journal Article child_publication: /article/10.1088/1748-9326/8/2/024041 href: https://data.globalchange.gov/reference/c9b7bbf7-7002-4a58-ad10-adb2f5d29b47.yaml identifier: c9b7bbf7-7002-4a58-ad10-adb2f5d29b47 uri: /reference/c9b7bbf7-7002-4a58-ad10-adb2f5d29b47 - attrs: Author: 'Prager, Daniel; Christopher Burns; Nigel Key' Issue: August Periodical Title: Amber Waves Publisher: USDA Economic Research Service Title: 'Examining farm sector and farm household income ' URL: https://www.ers.usda.gov/amber-waves/2017/august/examining-farm-sector-and-farm-household-income/ Year: 2017 _record_number: 23636 _uuid: ca3887b4-e477-4450-b44c-69b1161977a0 reftype: Electronic Article child_publication: /generic/fb22cc2a-e156-481b-9014-c91e0d6e848d href: https://data.globalchange.gov/reference/ca3887b4-e477-4450-b44c-69b1161977a0.yaml identifier: ca3887b4-e477-4450-b44c-69b1161977a0 uri: /reference/ca3887b4-e477-4450-b44c-69b1161977a0 - attrs: Abstract: 'Using an ensemble of coupled physical‐biogeochemical models driven with regionalized data from global climate simulations we are able to quantify the influence of changing climate upon oxygen conditions in one of the numerous coastal seas (the Baltic Sea) that suffers worldwide from eutrophication and from expanding hypoxic zones. Applying various nutrient load scenarios we show that under the impact of warming climate hypoxic and anoxic areas will very likely increase or at best only slightly decrease (in case of optimistic nutrient load reductions) compared to present conditions, regardless of the used global model and climate scenario. The projected decreased oxygen concentrations are caused by (1) enlarged nutrient loads due to increased runoff, (2) reduced oxygen flux from the atmosphere to the ocean due to increased temperature, and (3) intensified internal nutrient cycling. In future climate a similar expansion of hypoxia as projected for the Baltic Sea can be expected also for other coastal oceans worldwide.' Author: 'Meier, H. E. M.; Andersson, H. C.; Eilola, K.; Gustafsson, B. G.; Kuznetsov, I.; Müller‐Karulis, B.; Neumann, T.; Savchuk, O. P.' DOI: 10.1029/2011GL049929 Issue: 24 Journal: Geophysical Research Letters Title: 'Hypoxia in future climates: A model ensemble study for the Baltic Sea' Volume: 38 Year: 2011 _record_number: 25545 _uuid: ca67dba0-56b7-4ac4-ae5e-0e712a590ddd reftype: Journal Article child_publication: /article/10.1029/2011GL049929 href: https://data.globalchange.gov/reference/ca67dba0-56b7-4ac4-ae5e-0e712a590ddd.yaml identifier: ca67dba0-56b7-4ac4-ae5e-0e712a590ddd uri: /reference/ca67dba0-56b7-4ac4-ae5e-0e712a590ddd - attrs: .publisher: Nature Publishing Group .reference_type: 0 Author: 'Challinor, A. J.; Watson, J.; Lobell, D. B.; Howden, S. M.; Smith, D. R.; Chhetri, N.' DOI: 10.1038/nclimate2153 Date: 04//print ISSN: 1758-678X Issue: 4 Journal: Nature Climate Change Pages: 287-291 Title: A meta-analysis of crop yield under climate change and adaptation Volume: 4 Year: 2014 _record_number: 20341 _uuid: cd6bd680-f138-498d-a9b6-0f08b968d6e8 reftype: Journal Article child_publication: /article/10.1038/nclimate2153 href: https://data.globalchange.gov/reference/cd6bd680-f138-498d-a9b6-0f08b968d6e8.yaml identifier: cd6bd680-f138-498d-a9b6-0f08b968d6e8 uri: /reference/cd6bd680-f138-498d-a9b6-0f08b968d6e8 - attrs: Article Number: 3407325 Author: 'Houghton, Adele; Austin, Jessica; Beerman, Abby; Horton, Clayton' DOI: 10.1155/2017/3407325 Journal: Journal of Environmental and Public Health Pages: 16 Title: An approach to developing local climate change environmental public health indicators in a rural district Volume: 2017 Year: 2017 _record_number: 23534 _uuid: ced8505a-f36f-4c7b-8a0d-ec7f08482297 reftype: Journal Article child_publication: /article/10.1155/2017/3407325 href: https://data.globalchange.gov/reference/ced8505a-f36f-4c7b-8a0d-ec7f08482297.yaml identifier: ced8505a-f36f-4c7b-8a0d-ec7f08482297 uri: /reference/ced8505a-f36f-4c7b-8a0d-ec7f08482297 - attrs: Author: 'Derner, Justin D.; Augustine, David J.' DOI: 10.1016/j.rala.2016.05.002 Date: 2016/08/01/ ISSN: 0190-0528 Issue: 4 Journal: Rangelands Keywords: enterprise flexibility; grassbanking; herd structure; resiliency; risk management; risk reduction Pages: 211-215 Title: Adaptive management for drought on rangelands Volume: 38 Year: 2016 _record_number: 21586 _uuid: d0b6d345-8a94-4b3a-a191-0f09505948a1 reftype: Journal Article child_publication: /article/10.1016/j.rala.2016.05.002 href: https://data.globalchange.gov/reference/d0b6d345-8a94-4b3a-a191-0f09505948a1.yaml identifier: d0b6d345-8a94-4b3a-a191-0f09505948a1 uri: /reference/d0b6d345-8a94-4b3a-a191-0f09505948a1 - attrs: Abstract: 'Agriculture consumes more than two thirds of the total freshwater of the planet. This issue causes substantial conflict in freshwater allocation between agriculture and other economic sectors. Regulated deficit irrigation (RDI) is key technology because it helps to improve water use efficiency. Nonetheless, there is a lack of understanding of the mechanisms with which plants respond to RDI. In particular, little is known about how RDI might increase crop production while reducing the amount of irrigation water in real-world agriculture. In this review, we found that RDI is largely implemented through three approaches: (1) growth stage-based deficit irrigation, (2) partial root-zone irrigation, and (3) subsurface dripper irrigation. Among these, partial root-zone irrigation is the most popular and effective because many field crops and some woody crops can save irrigation water up to 20 to 30 % without or with a minimal impact on crop yield. Improved water use efficiency with RDI is mainly due to the following: (1) enhanced guard cell signal transduction network that decreases transpiration water loss, (2) optimized stomatal control that improves the photosynthesis to transpiration ratio, and (3) decreased evaporative surface areas with partial root-zone irrigation that reduces soil evaporation. The mechanisms involved in the plant response to RDI-induced water stress include the morphological traits, e.g., increased root to shoot ratio and improved nutrient uptake and recovery; physiological traits, e.g., stomatal closure, decreased leaf respiration, and maintained photosynthesis; and biochemical traits, e.g., increased signaling molecules and enhanced antioxidation enzymatic activity.' Author: 'Chai, Qiang; Gan, Yantai; Zhao, Cai; Xu, Hui-Lian; Waskom, Reagan M.; Niu, Yining; Siddique, Kadambot H. M.' DOI: 10.1007/s13593-015-0338-6 Date: December 18 ISSN: 1773-0155 Issue: 1 Journal: Agronomy for Sustainable Development Pages: 3 Title: Regulated deficit irrigation for crop production under drought stress. A review Type of Article: journal article Volume: 36 Year: 2015 _record_number: 25592 _uuid: d14eb52d-2a33-414b-bf2f-a868b2417600 reftype: Journal Article child_publication: /article/10.1007/s13593-015-0338-6 href: https://data.globalchange.gov/reference/d14eb52d-2a33-414b-bf2f-a868b2417600.yaml identifier: d14eb52d-2a33-414b-bf2f-a868b2417600 uri: /reference/d14eb52d-2a33-414b-bf2f-a868b2417600 - attrs: .publisher: Nature Publishing Group .reference_type: 0 Author: 'Mallakpour, Iman; Villarini, Gabriele' DOI: 10.1038/nclimate2516 Date: 03//print ISSN: 1758-678X Issue: 3 Journal: Nature Climate Change Pages: 250-254 Title: The changing nature of flooding across the central United States Volume: 5 Year: 2015 _record_number: 19562 _uuid: d2af0d06-91aa-4e53-99e1-4dad2ac9195a reftype: Journal Article child_publication: /article/10.1038/nclimate2516 href: https://data.globalchange.gov/reference/d2af0d06-91aa-4e53-99e1-4dad2ac9195a.yaml identifier: d2af0d06-91aa-4e53-99e1-4dad2ac9195a uri: /reference/d2af0d06-91aa-4e53-99e1-4dad2ac9195a - attrs: .reference_type: 10 Author: 'CENR,' Institution: Committee on Environment and Natural Resources Pages: 154 Place Published: 'Washington, D.C.' Title: 'Scientific Assessment of Hypoxia in U.S. Coastal Waters. Interagency Working Group on Harmful Algal Blooms, Hypoxia, and Human Health of the Joint Subcommittee on Ocean Science and Technology' URL: https://obamawhitehouse.archives.gov/sites/default/files/microsites/ostp/hypoxia-report.pdf Year: 2010 _chapter: '["Ch. 25: Coastal Zone FINAL"]' _record_number: 1501 _uuid: d3e0a9e1-9ff9-492c-ba13-9f24976fa65a reftype: Report child_publication: /report/cenrs-hypoxia-2010 href: https://data.globalchange.gov/reference/d3e0a9e1-9ff9-492c-ba13-9f24976fa65a.yaml identifier: d3e0a9e1-9ff9-492c-ba13-9f24976fa65a uri: /reference/d3e0a9e1-9ff9-492c-ba13-9f24976fa65a - attrs: .reference_type: 10 Author: 'Brown, M.E.; J.M. Antle; P. Backlund; E.R. Carr; W.E. Easterling; M.K. Walsh; C. Ammann; W. Attavanich; C.B. Barrett; M.F. Bellemare; V. Dancheck; C. Funk; K. Grace; J.S.I. Ingram; H. Jiang; H. Maletta; T. Mata; A. Murray; M. Ngugi; D. Ojima; B. O’Neill; C. Tebaldi' DOI: 10.7930/J0862DC7 Institution: U.S. Global Change Research Program Pages: 146 Place Published: 'Washington, DC' Title: 'Climate Change, Global Food Security, and the U.S. Food System' Year: 2015 _record_number: 23655 _uuid: d51156cc-0034-4afc-b2b7-1ad99efde458 reftype: Report child_publication: /report/usda-climate-change-global-food-security-us-food-system-2015 href: https://data.globalchange.gov/reference/d51156cc-0034-4afc-b2b7-1ad99efde458.yaml identifier: d51156cc-0034-4afc-b2b7-1ad99efde458 uri: /reference/d51156cc-0034-4afc-b2b7-1ad99efde458 - attrs: Author: 'Havlík, Petr; Valin, Hugo; Mosnier, Aline; Obersteiner, Michael; Baker, Justin S.; Herrero, Mario; Rufino, Mariana C.; Schmid, Erwin' DOI: 10.1093/ajae/aas085 ISSN: 0002-9092 Issue: 2 Journal: American Journal of Agricultural Economics Notes: 10.1093/ajae/aas085 Pages: 442-448 Title: 'Crop productivity and the global livestock sector: Implications for land use change and greenhouse gas emissions' Volume: 95 Year: 2013 _record_number: 23532 _uuid: d5ed58e8-a5b6-48a4-b648-7fe64fc6ecd5 reftype: Journal Article child_publication: /article/10.1093/ajae/aas085 href: https://data.globalchange.gov/reference/d5ed58e8-a5b6-48a4-b648-7fe64fc6ecd5.yaml identifier: d5ed58e8-a5b6-48a4-b648-7fe64fc6ecd5 uri: /reference/d5ed58e8-a5b6-48a4-b648-7fe64fc6ecd5 - attrs: Abstract: 'Renewable fuel standards in the US and elsewhere mandate the production of large quantities of cellulosic biofuels with low greenhouse gas (GHG) footprints, a requirement which will likely entail extensive cultivation of dedicated bioenergy feedstock crops on marginal agricultural lands. Performance data for such systems is sparse, and non‐linear interactions between the feedstock species, agronomic management intensity, and underlying soil and land characteristics complicate the development of sustainable landscape design strategies for low‐impact commercial‐scale feedstock production. Process‐based ecosystem models are valuable for extrapolating field trial results and making predictions of productivity and associated environmental impacts that integrate the effects of spatially variable environmental factors across diverse production landscapes. However, there are few examples of ecosystem model parameterization against field trials on both prime and marginal lands or of conducting landscape‐scale analyses at sufficient resolution to capture interactions between soil type, land use, and management intensity. In this work we used a data‐diverse, multi‐criteria approach to parameterize and validate the DayCent biogeochemistry model for upland and lowland switchgrass using data on yields, soil carbon changes, and soil nitrous oxide emissions from US field trials spanning a range of climates, soil types, and management conditions. We then conducted a high‐resolution case study analysis of a real‐world cellulosic biofuel landscape in Kansas in order to estimate feedstock production potential and associated direct biogenic GHG emissions footprint. Our results suggest that switchgrass yields and emissions balance can vary greatly across a landscape large enough to supply a biorefinery in response to variations in soil type and land‐use history, but that within a given land base both of these performance factors can be widely modulated by changing management intensity. This in turn implies a large sustainable cellulosic biofuel landscape design space within which a system can be optimized to meet economic or environmental objectives.' Author: 'Field, John L.; Marx, Ernie; Easter, Mark; Adler, Paul R.; Paustian, Keith' DOI: 10.1111/gcbb.12316 Issue: 6 Journal: GCB Bioenergy Pages: 1106-1123 Title: Ecosystem model parameterization and adaptation for sustainable cellulosic biofuel landscape design Volume: 8 Year: 2016 _record_number: 25569 _uuid: d664baed-2396-4be8-8e03-54d74d733c44 reftype: Journal Article child_publication: /article/10.1111/gcbb.12316 href: https://data.globalchange.gov/reference/d664baed-2396-4be8-8e03-54d74d733c44.yaml identifier: d664baed-2396-4be8-8e03-54d74d733c44 uri: /reference/d664baed-2396-4be8-8e03-54d74d733c44 - attrs: Abstract: 'The Accurate daily reference evapotranspiration (ET) values are needed to estimate crop water demand for irrigation management and hydrologic modeling purposes. The Bushland Reference ET Calculator (BET) was developed to implement a user-friendly interface for calculating hourly and daily grass and alfalfa reference ET using the Java Programming Language. The calculator uses the American Society of Civil Engineers (ASCE) Standardized Reference ET equation for calculating both grass and alfalfa reference ET at hourly and daily time steps from a single set or time series of weather data. Daily reference ET can be calculated either by calculating the hourly reference ET values and summing them up or by calculating a daily value using daily statistics of the climatic data (means, maxima, and minima). Graphing capabilities include line graph and scatter plot for quality assurance and quality control purposes. Descriptive statistics can be calculated for selected or all of the variables. Although the “Bushland Reference ET Calculator” was designed and developed for use mainly by producers and crop consultants to manage irrigation scheduling, it can also be used in educational training, research, and other practical applications. This article demonstrates the use of the Bushland Reference ET Calculator that is available from the USDA-ARS Conservation and Production Research Laboratory web site to interested users at no cost.' Author: 'Gowda, Prasanna H.; Howell, Terry A.; Baumhardt, R. Louis; Porter, Dana O.; Marek, Thomas H.; Nangia, Vinay' DOI: 10.13031/aea.32.11673 ISSN: 0883-8542 Issue: 3 Journal: Applied Engineering in Agriculture Keywords: Irrigation scheduling; Bushland Reference ET Calculator; Water management. Pages: 383 Place Published: 'St. Joseph, MI' Publisher: ASABE Title: A user-friendly interactive tool for estimating reference ET using ASCE standardized Penman-Monteith equation Volume: 32 Year: 2016 _record_number: 25568 _uuid: d6e020ac-3c60-45fe-b76f-c4e9d4502838 reftype: Journal Article child_publication: /article/10.13031/aea.32.11673 href: https://data.globalchange.gov/reference/d6e020ac-3c60-45fe-b76f-c4e9d4502838.yaml identifier: d6e020ac-3c60-45fe-b76f-c4e9d4502838 uri: /reference/d6e020ac-3c60-45fe-b76f-c4e9d4502838 - attrs: Abstract: 'Long-term declines in oxygen concentrations are evident throughout much of the ocean interior and are particularly acute in midwater oxygen minimum zones (OMZs). These regions are defined by extremely low oxygen concentrations (<20–45 μmol kg−1), cover wide expanses of the ocean, and are associated with productive oceanic and coastal regions. OMZs have expanded over the past 50 years, and this expansion is predicted to continue as the climate warms worldwide. Shoaling of the upper boundaries of the OMZs accompanies OMZ expansion, and decreased oxygen at shallower depths can affect all marine organisms through multiple direct and indirect mechanisms. Effects include altered microbial processes that produce and consume key nutrients and gases, changes in predator-prey dynamics, and shifts in the abundance and accessibility of commercially fished species. Although many species will be negatively affected by these effects, others may expand their range or exploit new niches. OMZ shoaling is thus likely to have major and far-reaching consequences.' Author: 'Gilly, William F.; J. Michael Beman; Steven Y. Litvin; Bruce H. Robison' DOI: 10.1146/annurev-marine-120710-100849 Issue: 1 Journal: Annual Review of Marine Science Keywords: 'hypoxia,ecology,oceans,microbial,mesopelagic,fisheries' Pages: 393-420 Title: Oceanographic and biological effects of shoaling of the oxygen minimum zone Volume: 5 Year: 2013 _record_number: 23768 _uuid: d721e218-0d4a-47ef-81a1-a148a38bca7c reftype: Journal Article child_publication: /article/10.1146/annurev-marine-120710-100849 href: https://data.globalchange.gov/reference/d721e218-0d4a-47ef-81a1-a148a38bca7c.yaml identifier: d721e218-0d4a-47ef-81a1-a148a38bca7c uri: /reference/d721e218-0d4a-47ef-81a1-a148a38bca7c - attrs: .reference_type: 10 Author: "Parris, A.\rP. Bromirski\rV. Burkett\rD. Cayan\rM. Culver\rJ. Hall\rR. Horton\rK. Knuuti\rR. Moss\rJ. Obeysekera\rA. Sallenger\rJ. Weiss" Institution: National Oceanic and Atmospheric Administration Pages: 37 Place Published: 'Silver Spring, MD' Publisher: National Oceanic and Atmospheric Administration Series Volume: NOAA Tech Memo OAR CPO-1 Title: Global Sea Level Rise Scenarios for the United States National Climate Assessment. NOAA Tech Memo OAR CPO-1 URL: http://scenarios.globalchange.gov/sites/default/files/NOAA_SLR_r3_0.pdf Year: 2012 _chapter: '["Appendix 5: Scenarios FINAL","Ch. 20: Southwest FINAL","Ch. 25: Coastal Zone FINAL","Ch. 16: Northeast FINAL","RF 3","RG 10 Coasts","Ch. 2: Our Changing Climate FINAL","Ch. 5: Transportation FINAL","Ch. 4: Energy Supply and Use FINAL","Ch. 0: Intro Regions FINAL","Ch. 17: Southeast and Caribbean FINAL","Ch. 21: Northwest FINAL"]' _record_number: 2432 _uuid: d8089822-678e-4834-a1ec-0dca1da35314 reftype: Report child_publication: /report/noaa-techmemo-oar-cpo-1-2012 href: https://data.globalchange.gov/reference/d8089822-678e-4834-a1ec-0dca1da35314.yaml identifier: d8089822-678e-4834-a1ec-0dca1da35314 uri: /reference/d8089822-678e-4834-a1ec-0dca1da35314 - attrs: Author: 'Eisler, Mark C.; Michael R. F. Lee; John F. Tarlton; Graeme B. Martin; John Beddington; Jennifer A. J. Dungait; Henry Greathead; Jianxin Liu; Stephen Mathew; Helen Miller; Tom Misselbrook; Phil Murray; Valil K. Vinod; Robert Van Saun; Michael Winter' DOI: 10.1038/507032a Journal: Nature Pages: 32-34 Title: 'Agriculture: Steps to sustainable livestock' Volume: 507 Year: 2014 _record_number: 23517 _uuid: d812667f-d643-497f-b969-be0acd154c4d reftype: Journal Article child_publication: /article/10.1038/507032a href: https://data.globalchange.gov/reference/d812667f-d643-497f-b969-be0acd154c4d.yaml identifier: d812667f-d643-497f-b969-be0acd154c4d uri: /reference/d812667f-d643-497f-b969-be0acd154c4d