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Published online by Cambridge University Press:  05 November 2012

Tony Eggleton
Tony Eggleton
Affiliation:
Australian National University, Canberra
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A Short Introduction to Climate Change , pp. 213 - 232
Publisher: Cambridge University Press
Print publication year: 2012

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References

Mann, MEBradley, RSHughes, MK 1998 Global-scale temperature patterns and climate forcing over the past six centuriesNature 392 779CrossRefGoogle Scholar
Aono, YKazui, K 2008 Phenological data series of cherry tree flowering in Kyoto, Japan, and its application to reconstruction of springtime temperatures since the 9th centuryInternational Journal of Climatology 28 905CrossRefGoogle Scholar
Chuine, IYiou, PViovy, NSeguin, BDaux, VLe Roy Ladurie, E 2004 Grape harvest dates and temperature variations in eastern France since 1370Nature 432 289CrossRefGoogle Scholar
Sparks, THMenzel, A 2002 Observed changes in seasons: An overviewInternational Journal of Climatology 22 1715CrossRefGoogle Scholar
Roy, DBSparks, TH 2000 Phenology of British butterflies and climate changeGlobal Change Biology 6 407CrossRefGoogle Scholar
Amano, TSmithers, RJSparks, THSutherland, WJ 2009 A 250-year index of first flowering dates and its response to temperature changesProceedings of the Royal Society B 277 2451CrossRefGoogle Scholar
Parmesan, C 1999
Fitter, AFitter, RSR 2002 Rapid changes in flowering time in British plantsScience 296 1689CrossRefGoogle ScholarPubMed
2012
Kearney, MRBriscoe, NJKaroly, DJPorter, WPNorgate, MSunnucks, P 2010 Early emergence in a butterfly causally linked to anthropogenic warmingBiology Letters 6 674CrossRefGoogle Scholar
Wisniak, J 2000 The thermometer – From the Feeling to the instrumentThe Chemical Educator, 5 88CrossRefGoogle Scholar
Jones, PDWigley, TML 2010 Estimation of global temperature trends: What’s important and what isn’tClimatic Change 100 59CrossRefGoogle Scholar
Meehl, GATebaldi, CWalton, GEasterling, DMcDaniel, L 2009 The relative increase of record high maximum temperatures compared to record low minimum temperatures in the USGeophysical Research Letters 36 L23701CrossRefGoogle Scholar
Hoyt, DSchatten, KH 1998 A new solar activity reconstructionSolar Physics 179 189CrossRefGoogle Scholar
Zolitschka, B 1992 Climatic change evidence and lacustrine varves from maar lakes, GermanyClimate Dynamics 6 229CrossRefGoogle Scholar
Taylor, GGasse, FWalker, PHMorgan, PJ 1990 The palaeoecological and palaeoclimatic significance of Miocene freshwater diatomite deposits from southern New South Wales, AustraliaPalaeogeography, Palaeoclimatology, Palaeoecology 77 127CrossRefGoogle Scholar
Lockwood, M 2009 Solar change and climate: An update in the light of the current exceptional solar minimumProceedings of the Royal Society A 466 303CrossRefGoogle Scholar
Scafetta, NWest, BJ 2008 Is climate sensitive to solar variability?Physics Today50CrossRefGoogle Scholar
Solanki, SKKrivova, NA 2003 Can solar variability explain global warming since 1970?Journal of Geophysical Research A 108 1200Google Scholar
Lean, JL 2010 Cycles and trends in solar irradiance and climateWiley Interdisciplinary Reviews: Climate Change 1 111Google Scholar
Svensmark, HBondo, TSvensmark, J 2009 Cosmic ray decreases affect atmospheric aerosols and cloudsGeophysical Research Letters 36 L15101CrossRefGoogle Scholar
Calogovic, JAlbert, CArnold, F, J.Beer, JDesorgher, LFlueckiger, EO 2010 Sudden cosmic ray decreases: No change of global cloud coverGeophysical Research Letters 37 L03802CrossRefGoogle Scholar
Kulmala, MRiipinen, INieminen, THulkkonen, MSogacheva, LManninen, HEPaasonen, PPetäjä, TDal Maso, MAalto, PPViljanen, AUsoskin, IVainio, RMirme, SMinikin, APetzold, AHõrrak, UPlaß-Dülmer, CBirmili, WKerminen, V-M 2009 Atmospheric data over a solar cycle: No connection between galactic cosmic rays and new particle formationAtmospheric Chemistry and Physics Discussions 9 21525CrossRefGoogle Scholar
Pierce, JRAdams, PJ 2009 Can cosmic rays affect cloud condensation nuclei by altering new particle formation rates?Geophysical Research Letters 36 L09820CrossRefGoogle Scholar
Shrestha, GTraina, SJSwanston, CW 2010 Black carbon’s properties and role in the environment: A comprehensive reviewSustainability 2 294CrossRefGoogle Scholar
Ohmura, A 2006 Observed long term variations of solar irradiance at the Earth’s surfaceSpace Science Reviews 125 111CrossRefGoogle Scholar
Philipona, RBehrens, KRuckstuhl, C 2009 How declining aerosols and rising greenhouse gases forced rapid warming in Europe since the 1980sGeophysical Research Letters 36 L02806CrossRefGoogle Scholar
Trenberth, KEShea, DJ 2006 Atlantic hurricanes and natural variability in 2005Geophysical Research Letters 33 L12704CrossRefGoogle Scholar
Schlesinger, MERamankutty, N 2011 An oscillation in the global climate system of period 65–70 yearsNature 367 723CrossRefGoogle Scholar
Knudsen, MFSeidenkrantz, M-SJacobsen, BHKuijpers, A 2011 Tracking the Atlantic Multidecadal Oscillation through the last 8,000 yearsNature Communications 2 178CrossRefGoogle ScholarPubMed
Gray, STGraumlich, LJBetancourt, JL 2004 A tree-ring based reconstruction of the Atlantic Multidecadal Oscillation since 1567 ADGeophysical Research Letters 31 L12205CrossRefGoogle Scholar
Vinczi, MJánosi, IM 2011 Is the Atlantic Multidecadal Oscillation (AMO) a statistical phantom?Nonlinear Processes in Geophysics 18 469CrossRefGoogle Scholar
Kerr, R 2012 A North Atlantic climate pacemaker for the centuriesScience 288 1984CrossRefGoogle Scholar
Mazzarella, AScafetta, N 2012 Evidences for a quasi 60-year North Atlantic Oscillation since 1700 and its meaning for global climate changeTheoretical and Applied Climatology. 107 599CrossRefGoogle Scholar
Luterbacher, JXoplaki, EDietrich, DJones, PDDavies, TDPortis, DGonzalez-Rouco, JFvon Storch, HGyalistras, DCasty, CWanner, H 2001 Extending North Atlantic Oscillation reconstructions back to 1500Atmospheric Science Letters 2 114CrossRefGoogle Scholar
Cook, ERD’Arrigo, RDMann, ME 2002 A well-verified, multiproxy reconstruction of the winter North Atlantic Oscillation Index since AD 1400Journal of Climate 15 17542.0.CO;2>CrossRefGoogle Scholar
Minobe, S 1997 A 50–70 year climatic oscillation over the North Pacific and North AmericaGeophysical Research Letters 24 683CrossRefGoogle Scholar
Linsley, BKWellington, GMSchrag, DP 2000 Decadal sea surface temperature variability in the subtropical South Pacific from 1726 to 1997 ADScience 290 1145CrossRefGoogle Scholar
Ummenhofer, CCEngland, MHMcIntosh, PCMeyers, GAPook, MJRisbey, JSSen Gupta, ATaschetto, AS 2009 What causes southeast Australia’s worst droughts?Geophysical Research Letters 36 L04706CrossRefGoogle Scholar
Mayewski, PAMeredith, MPSummerhayes, CPTurner, JWorby, ABarrett, PJCasassa, GBertler, NANBracegirdle, TNaveira Garabato, ACBromwich, DCampbell, HHamilton, GSLyons, WBMaasch, KAAoki, SXiao, Cvan Ommen, T 2009 State of the Antarctic and Southern Ocean climate systemReviews of Geophysics 47 RG1003CrossRefGoogle Scholar
Lambin, EFGeist, HJLepers, E 2003 Dynamics of land-use and land-cover change in tropical regionsAnnual Review of Environment and Resources 28 205CrossRefGoogle Scholar
Turner, BL 1990 The Earth as Transformed by Human Action: Global and Regional Changes in the Biosphere over the Past 300 YearsCambridge University PressGoogle Scholar
Gordon, LJSteffen, WBror, FJFolke, CFalkenmark, MJohannessen, Å 2005 Human modification of global water flows from the land surfaceProceedings of the National Academy of Science of the United States of America 102 7612CrossRefGoogle ScholarPubMed
Miller, GMangan, JPollard, DThompson, SFelzer, BMagee, J 2005 Sensitivity of the Australian monsoon to insolation and vegetation: Implications for human impact on continental moisture balanceGeology 33 65CrossRefGoogle Scholar
Pitman, AJHesse, PP 2007 The significance of large-scale land cover change on the Australian palaeomonsoonQuaternary Science Reviews 26 189CrossRefGoogle Scholar
McAlpine, CASyktus, JIRyan, JGDeo, RCMcKeon, GMMcGowan, HAPhinn, SR 2009 A continent under stress: Interactions, feedback and risks associated with impact of modified land cover on Australia’s climateGlobal Change Biology 15 2206CrossRefGoogle Scholar
Bonan, GB 2008 Forests and climate change: Forcings, feedbacks, and the climate benefits of forestsScience 320 1444CrossRefGoogle ScholarPubMed
Arrhenius, S 1896 On the influence of carbonic acid in the air upon the temperature of the groundThe London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science [Fifth Series] 41 237CrossRefGoogle Scholar
MacFarling-Meure, CEtheridge, DTrudinger, CSteele, PLangenfelds, Rvan Ommen, TSmith, AElkins, J 2006 Law Dome CO2, CH4 and N2O ice core records extended to 2000 years BPGeophysical Research Letters 33 L14810CrossRefGoogle Scholar
Mann, MEZhang, ZRutherford, SBradley, RSHughes, MKShindell, DAmmann, CFaluvegi, GNi, F 2009 Global signatures and dynamical origins of the Little Ice Age and Medieval Climate AnomalyScience 326 1256CrossRefGoogle ScholarPubMed
Keeling, CD 1998 Rewards and penalties of monitoring the EarthAnnual Reviews of Energy and Environment 23 25CrossRefGoogle Scholar
Callendar, GS 1938 The artificial production of carbon dioxide and its influence on climateQuarterly Journal of the Royal Meteorological Society 64 223CrossRefGoogle Scholar
Chen, CHarries, JBrindley, HRinger, M 2007 Spectral signatures of climate change in the Earth’s infrared spectrum between 1970 and 2006Proceedings of the 2007 EUMETSAT Meteorological Satellite Conference & 15th AMS Conference on Satellite Meteorology and Oceanography24Google Scholar
Kiehl, JTTrenberth, KE 1997 Earth’s annual global mean energy budgetBulletin of the American Meteorological Society 78 1972.0.CO;2>CrossRefGoogle Scholar
Miskolczi, FM 2007 Greenhouse effect in semi-transparent planetary atmospheresQuarterly Journal of the Hungarian Meteorological Service 111 1Google Scholar
Trenberth, KEFasullo, JSmith, L 2005 Trends and variability in column-integrated atmospheric water vaporClimate Dynamics 24 741CrossRefGoogle Scholar
Morland, JCoen, MCHocke, KJeannet, PMätzler, C 2009 Tropospheric water vapour above Switzerland over the last 12 yearsAtmospheric Chemistry and Physics 9 5975CrossRefGoogle Scholar
Hug, H 2007 www.eike-klima-energie.eu/uploads/media/Hug_Spektroskopisches_Artefakt_2007.pdf
Chen, CHarries, JBrindley, HRinger, M 2007 Spectral signatures of climate change in the Earth’s infrared spectrum between 1970 and 2006Proceedings of the 2007 EUMETSAT Meteorological Satellite Conference & 15th AMS Conference on Satellite Meteorology and Oceanography24Google Scholar
Norris, JR 2005 Multidecadal changes in near-global cloud cover and estimated cloud cover radiative forcingJournal of Geophysical Research 110 D08206CrossRefGoogle Scholar
Dessler, AE 2011 Cloud variations and the Earth’s energy budgetGeophysical Research Letters 38 L19701CrossRefGoogle Scholar
Lemonick, MD 2010 The effect of clouds on climate: A key mystery for researchersEnvironment 360 http://e360.yale.eduGoogle Scholar
Cox, PJones, C 2008 Illuminating the modern dance of climate and CO2Science 321 1642CrossRefGoogle ScholarPubMed
Prescott, JAPiper, CS 1932 The soils of the South Australian MalleeTransactions of the Royal Society of South Australia 56 118Google Scholar
Lavery, BKariko, ANicholls, N 1992 A historical rainfall data set for AustraliaAustralian Meteorological Magazine 40 33Google Scholar
Held, IMDelworth, TLLu, JFindell, KLKnutson, TR 2005 Simulation of Sahel drought in the 20th and 21st centuriesProceedings of the National Academy of Science USA 102 17891CrossRefGoogle ScholarPubMed
Vincent, LAMekis, E 2006 Changes in daily and extreme temperature and precipitation indices for Canada over the twentieth centuryAtmosphere-Ocean 44 177CrossRefGoogle Scholar
Ge, SYang, DKane, DL 2009 Yukon River hydrology and climate changes, 1977–2006American Geophysical Union, Fall Meeting 2009Google Scholar
Schneider, UFuchs, TMeyer-Christoffer, ARudolf, B 2008 Global Precipitation Analysis Products of the GPCCGlobal Precipitation Climatology Centre, Deutscher Wetterdienst, Offenbach a.M., GermanyGoogle Scholar
Chung, CERamanathan, V 2006 Weakening of North Indian SST gradients and the monsoon rainfall in India and the SahelJournal of Climate 19 2036CrossRefGoogle Scholar
Nigam, SGuan, B 2011 Atlantic tropical cyclones in the twentieth century: Natural variability and secular change in cyclone countClimate Dynamics 36 2279CrossRefGoogle Scholar
Webster, PJHolland, GJCurry, JAChang, H-R 2005 Changes in tropical cyclone number, duration, and intensity in a warming environmentScience 309 1844CrossRefGoogle Scholar
Ho, C-HBaik, J-JKim, J-HGong, D-YSui, C-H 2004 Interdecadal changes in summertime typhoon tracksJournal of Climate 17 17672.0.CO;2>CrossRefGoogle Scholar
Liu, K-bShen, CLouie, K-s 2001 A 1,000-year history of typhoon landfalls in Guangdong, Southern China, reconstructed from Chinese historical documentary recordsAnnals of the Association of American Geographers 91 453CrossRefGoogle Scholar
Nott, JHaig, JNeil, HGillieson, D 2007 Greater frequency variability of landfalling tropical cyclones at centennial compared to seasonal and decadal scalesEarth and Planetary Science Letters 255 367CrossRefGoogle Scholar
Gibbs, LM 2009 Just add water: Colonisation, water governance, and the Australian inlandEnvironment and Planning A 41 2964CrossRefGoogle Scholar
Ummenhofer, CCEngland, MHMcIntosh, PCMeyers, GAPook, MJRisbey, JSSen Gupta, ATaschetto, AS 2009 What causes southeast Australia’s worst droughts?Geophysical Research Letters 36 L04706CrossRefGoogle Scholar
Piechota, TTimilsena, JTootle, GHidalgo, H 2004 The western US drought: How bad is it?Eos 85 301CrossRefGoogle Scholar
Dai, ATrenberth, KEQian, T 2004 A global dataset of Palmer drought severity index for 1870–2002: Relationship with soil moisture and effects of surface warmingJournal of Hydrometeorology 5 1117CrossRefGoogle Scholar
Post, DAChiew, FHSTeng, JVaze, JYang, AMpelasoka, FSmith, IKatzfey, JMarston, FMarvanek, SKirono, DNguyen, KKent, DDonohue, RLi, LMcVicar, T 2009 Production of Climate Scenarios for TasmaniaA report to the Australian Government from the CSIRO Tasmania Sustainable Yields Project, CSIRO Water for a Healthy Country FlagshipAustraliaGoogle Scholar
Barriendos, MRodrigo, FS 2006 Study of historical flood events on Spanish rivers using documentary dataHydrological Sciences-Journal-des Sciences Hydrologiques 51 765CrossRefGoogle Scholar
Cyberski, JGrze, MGutry-Korycka, MNachlik, EKundzewicz, ZW 2006 History of floods on the River VistulaJournal–des Sciences Hydrologiques 51 799CrossRefGoogle Scholar
Böhm, OWetzel, K-F 2006 Flood history of the Danube tributaries Lech and Isar in the Alpine foreland of GermanyHydrological Sciences Journal 51 784CrossRefGoogle Scholar
Glaser, RRiemann, DSchönbein, JBarriendos, MBrázdil, RBertolin, CCamuffo, DDeutsch, MDobrovolný, Pvan Engelen, A 2010 The variability of European floods since AD 1500Climatic Change 101 235CrossRefGoogle Scholar
Australian Bureau of Meteorology 2010 www.bom.gov.au
Ralph, TJHesse, PP 2010 Downstream hydrogeomorphic changes along the Macquarie River, southeastern Australia, leading to channel breakdown and floodplain wetlandsGeomorphology 118 48CrossRefGoogle Scholar
Bunn, SEThoms, MCHamilton, SKCapon, SJ 2006 Flow variability in dryland rivers: Boom, bust and the bits in betweenRiver Research and Applications 22 179CrossRefGoogle Scholar
Rasmusson, EMCarpenter, TH 1982 Variations in tropical sea surface temperatures and surface wind fields associated with the Southern Oscillation/El NiñoMonthly Weather Review 110 3542.0.CO;2>CrossRefGoogle Scholar
Steiner, DZumbühl, HJBauder, A 2008 Darkening Peaks: Glacier Retreat, Science and SocietyUniversity of California PressGoogle Scholar
Thompson, LGMoseley-Thompson, EDavis, MELin, P-NHenderson, KMashiotta, TA 2003
Thompson, LGBrecher, HHMosley-Thompson, EHardy, DRMark, BG 2009 Glacier loss on Kilimanjaro continues unabatedProceedings of the National Academy of Sciences 106 19770CrossRefGoogle ScholarPubMed
Mölg, TCullen, NJHardy, DRWinkler, MKaser, G 2009 Quantifying climate change in the tropical midtroposphere over East Africa from glacier shrinkage on KilimanjaroJournal of Climate 22 4162CrossRefGoogle Scholar
Hoelzle, MChinn, TStumm, DPaul, FZemp, MHaeberli, W 2007 The application of glacier inventory data for estimating past climate change effects on mountain glaciers: A comparison between the European Alps and the Southern Alps of New ZealandGlobal and Planetary Change 56 69CrossRefGoogle Scholar
Plummer, M 2004 Sensitivity of alpine glaciers to climate change and predictions of the demise of Wyoming’s glaciersGeological Society of America Abstracts with Programs 36 249Google Scholar
Kulkarni, AVBahuguna, IMRathore, BPSingh, SKRandhawa, SSSood, RKDhar, S 2007 Glacial retreat in Himalaya using Indian remote sensing satellite dataCurrent Science 92 69Google Scholar
Bishop, MPBush, ABCollier, ECopland, LHaritashya, UKJohn, SFSwenson, SCWahr, J 2008 Advancing glaciers and positive mass anomaly in the Karakoram Himalaya, PakistanAmerican Geophysical Union, Fall Meeting 2008Google Scholar
Wiles, GCD’Arrigo, RDVillalba, RCalkin, PEBarclay, DJ 2004 Century-scale solar variability and Alaskan temperature change over the past millenniumGeophysical Research Letters 31 L15203CrossRefGoogle Scholar
Reyes, AVWiles, GCSmith, DJBarclay, DJAllen, SJackson, SLarocque, SLaxton, SLewis, DCalkin, PEClague, JJ 2006 Expansion of alpine glaciers in Pacific North America in the first millennium ADGeology 34 57CrossRefGoogle Scholar
Nesje, ABakke, JDahl, SOØyvind, LMatthews, JA 2008 Norwegian mountain glaciers in the past, present and futureGlobal and Planetary Change 6010CrossRefGoogle Scholar
Braithwate, RJ 2002 Glaciers and their contribution to sea level changePhysics and Chemistry of the Earth 27 1445CrossRefGoogle Scholar
Mayewski, PARohling, EEStager, JCKarlen, WMaasch, KAMeeker, LDMeyerson, EAGasse, Fvan Kreveld, SHolmgren, KLee-Thorp, JRosqvist, GRack, FStaubwasser, MSchneider, RRSteig, EJ 2004 Holocene climate variabilityQuaternary Research 62 243CrossRefGoogle Scholar
Romanovsky, VESmith, SLChristiansen, HH 2010 Permafrost thermal state in the Polar Northern Hemisphere during the International Polar Year 2007–2009: A synthesisPermafrost and Periglacial Processes 21 106CrossRefGoogle Scholar
Masson-Delmotte, VKageyama, MBraconnot, PCharbit, SKrinner, GRitz, CGuilyardi, EJouzel, JAbe-Ouchi, ACrucifix, MGladstone, RMHewitt, CDKitoh, ALeGrande, ANMarti, OMerkel, UMotoi, TOhgaito, ROtto-Bliesner, BPeltier, WRRoss, IValdes, PJVettoretti, GWeber, SLWolk, FYu, Y 2006 Past and future polar amplification of climate change: Climate model intercomparisons and ice-core constraintsClimate Dynamics 26 513CrossRefGoogle Scholar
Peterson, BJHolmes, RMMcClelland, JWVörösmarty, CJLammers, RBShiklomanov, AIShiklomanov, IARahmstorf, S 2002 Increasing river discharge to the Arctic OceanScience 298 2171CrossRefGoogle ScholarPubMed
Kwok, RRothrock, DA 2009 Decline in Arctic sea ice thickness from submarine and ICESat records: 1958–2008Geophysical Research Letters 36 L1550CrossRefGoogle Scholar
McKay, JLde Vernal, AHillaire-Marcel, CNot, CPolyak, LDarby, D 2008 Holocene fluctuations in Arctic sea-ice cover: dinocyst-based reconstructions for the eastern Chukchi SeaCanadian Journal of Earth Sciences 45 1377CrossRefGoogle Scholar
Turner, JComiso, JCMarshall, GJLachlan-Cope, TABracegirdle, TMaksym, TMeredith, MPWang, ZOrr, A 2009 Non-annular atmospheric circulation change induced by stratospheric ozone depletion and its role in the recent increase of Antarctic sea ice extentGeophysical Research Letters 36 L08502CrossRefGoogle Scholar
Rignot, EBamber, JLvan den Broeke, MRDavis, CLi, Yvan de Berg, WJvan Meijgaard, EK 2007 Recent Antarctic ice mass loss from radar interferometry and regional climate modelingNature Geoscience 1 106CrossRefGoogle Scholar
Zwally, HJGiovinetto, MB 2011 Overview and assessment of Antarctic ice-sheet mass balance estimates: 1992–2009Surveys in Geophysics 32 351CrossRefGoogle Scholar
Velicogna, I 2009 Increasing rates of ice mass loss from the Greenland and Antarctic ice sheets revealed by GRACEGeophysical Research Letters 36 L19503CrossRefGoogle Scholar
Chen, JLWilson, CRTapley, BDBlankenship, DYoung, D 2008 Antarctic regional ice loss rates From GRACEEarth and Planetary Science Letters 266 140CrossRefGoogle Scholar
Lee, HShum, CKHowat, IMMonaghan, AAhn, YDuan, JGuo, J-YKuo, C-YWang, L 2012 Continuously accelerating ice loss over Amundsen Sea catchment, West Antarctica, revealed by integrating altimetry and GRACE dataEarth and Planetary Science Letters74CrossRefGoogle Scholar
Chen, JLWilson, CRTapley, BD 2006 Satellite gravity measurements confirm accelerated melting of Greenland ice sheetScience 313 1958CrossRefGoogle ScholarPubMed
Rignot, EBox, JEBurgess, EHanna, E 2008 Mass balance of the Greenland ice sheet from 1958 to 2007Geophysical Research Letters 35 L20502CrossRefGoogle Scholar
Velicogna, I 2009 Increasing rates of ice mass loss from the Greenland and Antarctic ice sheets revealed by GRACEGeophysical Research Letters 36 L19503CrossRefGoogle Scholar
Johannessen, OMKhvorostovsky, KMiles, MWBobylev, LP 2005 Recent ice-sheet growth in the interior of GreenlandScience 310 1013CrossRefGoogle ScholarPubMed
Rignot, EVelicogna, Ivan den Broeke, MRMonaghan, ALenaerts, J 2011 Acceleration of the contribution of the Greenland and Antarctic ice sheets to sea level riseGeophysical Research Letters 38 L05503CrossRefGoogle Scholar
Boon, SBurgess, DOKoerner, RMSharp, J 2010 Forty-seven years of research on the Devon Island ice cap, Arctic CanadaArctic 63 13CrossRefGoogle Scholar
Shepherd, AZhijun, DUBenham, TJDowdeswell, JAMorris, EM 2007 Mass balance of Devon Ice Cap, Canadian ArcticAnnals of Glaciology 46 249CrossRefGoogle Scholar
Frakes, LABurger, DApthorpe, MWiseman, JDettmann, MAlley, NFlint, RGravestock, DLudbrook, NBackhouse, JSkwarko, SScheibnerova, VMcMinn, AMoore, PSBolton, BRDouglas, JGChrist, RWade, MMolnar, REMcGowran, BBalme, BEDay, RA 1987 Australian Cretaceous shorelines, stage by stagePalaeogeography, Palaeoclimatololgy, Palaeoecology 59 31CrossRefGoogle Scholar
O’Connell, JFAllen, JHawkes, K 2010 The Global Origins and Development of SeafaringThe McDonald Institute for Archaeological Research, Cambridge UniversityGoogle Scholar
Domingues, CMChurch, JAWhite, NJGleckler, PJWijffels, SEBarker, PMDunn, JR 2008 Improved estimates of upper-ocean warming and multi-decadal sea-level riseNature 453 1090CrossRefGoogle ScholarPubMed
Purkey, SGJohnson, GC 2010 Warming of global abyssal and deep Southern Ocean waters between the 1990s and 2000s: Contributions to global heat and sea level rise budgetsJournal of Climate 23 6336CrossRefGoogle Scholar
Wigley, TML 2005 The climate change commitmentNature 307 1766Google ScholarPubMed
Brohan, PKennedy, JJHarris, ITett, SFBJones, PD 2005 Uncertainty estimates in regional and global observed temperature changes: A new dataset from 1850Journal of Geophysical Research 111 D12106CrossRefGoogle Scholar
McLean, JDde Freitas, CRCarter, RM 2009 Influence of the Southern Oscillation on tropospheric temperatureJournal of Geophysical Research 114 D14104CrossRefGoogle Scholar
Foster, GAnnan, JDJones, PDMann, MEMullan, BRenwick, JSalinger, JSchmidt, GATrenberth, KE 2009 Comment on “Influence of the Southern Oscillation on tropospheric temperature” by JD McLean, CR de Freitas & RM CarterJournal of Geophysical Research Atmospheres 115 D09110Google Scholar
Douglas, BC 1991 Global sea level riseJournal of Geophysical Research 96 6981CrossRefGoogle Scholar
Cazanave, AChambers, DPCipollini, PFu, LLHurell, JWMerrifield, MNerem, SPlag, HPShum, CKWillis, J 2010 Proceedings of Ocean Obs’09: Sustained Ocean Observations and Information for SocietyVenice, ItalyGoogle Scholar
Church, JAWhite, NJAarup, TWilson, WSWoodworth, PLDomingues, CMHunter, JRLambeck, K 2008 Understanding global sea levels: Past, present and futureSustainability Science 3 9CrossRefGoogle Scholar
Cazanave, ALlovel, W 2010 Contemporary sea level riseAnnual Review of Marine Science 2 145CrossRefGoogle Scholar
IPCC 2007 Climate Change 2007: The Physical Science Basis, Chapter 5. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate ChangeCambridge University PressCambridge, United Kingdom and New York, USA
Dore, JELukas, RSadler, DWChurch, MJKarl, DM 2009 Physical and biogeochemical modulation of ocean acidification in the central North PacificProceedings of the National Academy of Sciences USA 106 12235CrossRefGoogle ScholarPubMed
Liu, YLiu, WPeng, ZXiao, YWei, GSun, WHe, JLiu, GChou, C-L 2009 Instability of seawater pH in the South China Sea during the mid-late Holocene: Evidence from boron isotopic composition of coralsGeochimica et Cosmochimica Acta 73 1264CrossRefGoogle Scholar
Wei, GMcCulloch, MTMortimer, GDeng, WXie, L 2009 Evidence for ocean acidification in the Great Barrier Reef of AustraliaGeochimica et Cosmochimica Acta 73 2332CrossRefGoogle Scholar
Pelejero, CCalvo, EMcCulloch, MTMarshall, JFGagan, MKLough, JMOpdyke, BN 2005 Preindustrial to modern interdecadal variability in coral reef pHScience 309 2204CrossRefGoogle ScholarPubMed
Hoegh-Guldberg, OMumby, PJHooten, AJSteneck, RSGreenfield, PGomez, EHarvell, CDSale, PFEdwards, AJCaldeira, KKnowlton, NEakin, CMIglesias-Prieto, RMuthiga, NBradbury, RHDubi, AHatziolos, ME 2007 Coral reefs under rapid climate change and ocean acidificationScience 318 1737CrossRefGoogle ScholarPubMed
Kuffner, IBAndersson, AJJokiel, PLRodgers, KSMackenzie, FT 2008 Decreased abundance of crustose coralline algae due to ocean acidificationNature Geoscience 1 114CrossRefGoogle Scholar
Fine, MTchernov, D 2007 Scleractinian coral species survive and recover from decalcificationScience 315 1811CrossRefGoogle ScholarPubMed
Iglesias-Rodriguez, MDHalloran, PRRickaby, REMHall, IRColmenero-Hidalgo, EGittins, JRGreen, DRHTyrrell, TGibbs, SJDassow, PRehm, EArmbrust, EVBoessenkool, KP 2008 Phytoplankton calcification in a high-CO2 worldScience 230 336CrossRefGoogle Scholar
Riebesell, UZondervan, IRost, BTortell, PDZeebe, REMorel, FFM 2000 Reduced calcification of marine plankton in response to increased atmospheric CO2Nature 407 364CrossRefGoogle ScholarPubMed
Riebesell, UBellerby, RGJEngel, AFabry, VJHutchins, DAReusch, TBHSchulz, KGMorel, FMM 2008 Comment on “Phytoplankton calcification in a high-CO2 world”Science 322 1466bCrossRefGoogle Scholar
Iglesias-Rodriguez, MDBuitenhuis, ETRaven, JASchofield, OPoulton, AJGibbs, SHalloran, PRde Baar, HJW 2008 Response to comment on “Phytoplankton calcification in a high-CO2 world”Science 322CrossRefGoogle Scholar
Halloran, PRHall, IRColmenero-Hidalgo, ERickaby, REM 2008 A multi-species coccolith volume response to an anthropogenically-modified oceanBiogeosciences Discussion 5 2923CrossRefGoogle Scholar
Roberts, DHoward, WRMoy, ADRoberts, JLTrull, TWBray, SGHopcroft, RR 2011 Interannual pteropod variability in sediment traps deployed above and below the aragonite saturation horizon in the sub-Antarctic Southern OceanPolar Biology 34 1739CrossRefGoogle Scholar
Doney, SCFabry, VJFeely, RAKleypas, JA 2009 Ocean acidification: The other CO2 problemAnnual Reviews of Marine Science 1 169CrossRefGoogle ScholarPubMed
Berkelmans, RDe’ath, GKininmonth, SSkirving, WJ 2004 A comparison of the 1998 and 2002 coral bleaching events on the Great Barrier Reef: Spatial correlation, patterns and predictionsCoral Reefs 23 74CrossRefGoogle Scholar
Great Barrier Reef Marine Park Authority 2006
Diaz-Pulido, GMcCook, LJDove, SBerkelmans, RRoff, GKline, DIWeeks, SEvans, RDWilliamson, DHHoegh-Guldberg, O 2009 Doom and boom on a resilient reef: Climate change, algal overgrowth and coral recoveryPLoS ONE 4 e5239CrossRefGoogle ScholarPubMed
Berkelmans, R 2002 Time-integrated thermal bleaching thresholds of reefs and their variation on the Great Barrier ReefMarine Ecology Progress Series 229 73CrossRefGoogle Scholar
Kirschvink, JL 1992 The Proterozoic BiosphereCambridge University PressGoogle Scholar
Hoffman, PFSchrag, DP 2002 The snowball Earth hypothesis: Testing the limits of global changeTerra Nova 14 129CrossRefGoogle Scholar
Bao, HMLyons, JRZhou, C 2008 Triple oxygen isotope evidence for elevated CO2 levels after a Neoproterozoic glaciationNature 453 504CrossRefGoogle ScholarPubMed
Le Hir, GDonnadieu, YGoddéris, YMeyer-Berthaud, BRamstein, GBlakey, RC 2011 The climate change caused by the land plant invasion in the DevonianEarth and Planetary Science Letters 310 203CrossRefGoogle Scholar
Beerling, DBerner, RAMackenzie, FTHarfoot, MBPyle, JA 2009 Methane and the CH4-related greenhouse effect over the past 400 million yearsAmerican Journal of Science 309 97CrossRefGoogle Scholar
Zachos, JPagani, MSloan, LThomas, EBillups, K 2001 Trends, rhythms and aberrations in global climate 65 Ma to presentScience 292 686CrossRefGoogle ScholarPubMed
Nisbet, EGJones, SMMaclennan, JEagles, GMoed, JWarwick, NBekki, SBraesicke, PPyle, JAFowler, CRM 2009 Kick-starting ancient warmingNature Geoscience 2CrossRefGoogle Scholar
Dickens, GRO’Neil, JRRea, DKOwen, RM 1995 Dissociation of oceanic methane hydrate as a cause of the carbon isotope excursion at the end of the PaleocenePaleoceanography 10 965CrossRefGoogle Scholar
Hönisch, B 2012 The geological record of ocean acidificationScience 335 1056CrossRefGoogle ScholarPubMed
Royer, DLBerner, RAMontañez, IPTabor, NJBeerling, DJ 2004 CO2 as a primary driver of Phanerozoic climateGSA Today 14 42.0.CO;2>CrossRefGoogle Scholar
Park, JRoyer, DL 2011 Geological constraints on the glacial amplification of Phanerozoic climate sensitivityAmerican Journal of Science 311 1CrossRefGoogle Scholar
Shaviv, NJVeizer, J 2003 Celestial driver of Phanerozoic climate?GSA Today 13 42.0.CO;2>CrossRefGoogle Scholar
Ruth, UBarnola, J-MBeer, JBigler, MBlunier, TCastellano, EFischer, HFundel, FHuybrechts, PKaufmann, PKipfstuhl, SLambrecht, AMorganti, AOerter, HParrenin, FRybak, OSeveri, MUdisti, RWilhelms, FWolff, E 2007 “EDML1”: A chronology for the EPICA deep ice core from Dronning Maud Land, Antarctica, over the last 150 000 yearsClimate of the Past 3 475CrossRefGoogle Scholar
Petit, JRJouzel, JRaynaud, DBarkov, NIBarnola, J-MBasile, IBender, MChappellaz, JDavis, MDelaygue, GDelmotte, MKotlyakov, VMLegrand, MLipenkov, VYLorius, CPépin, LRitz, CSaltzman, EStievenard, M 1999 Climate and atmospheric history of the past 420,000 years from the Vostok icecore, AntarcticaNature 399 429CrossRefGoogle Scholar
EPICA community members 2004 Eight glacial cycles from an Antarctic ice coreNature 429 623CrossRefGoogle Scholar
Motoyama, H 2007 The second deep ice coring project at Dome Fuji, AntarcticaScientific Drilling 5 41CrossRefGoogle Scholar
Stenni, BMasson-Delmotte, VSelmo, EOerter, HMeyer, HRöthlisberger, RJouzel, JCattani, OFalourd, SFischer, HHoffmann, GIacumin, PJohnsen, SJMinster, BUdisti, R 2010 The deuterium excess records of EPICA Dome C and Dronning Maud Land ice cores (East Antarctica)Quaternary Science Reviews 29 146CrossRefGoogle Scholar
Sime, LCWolff, EWOliver, KICTindall, JC 2009 Evidence for warmer interglacials in East Antarctic ice coresNature 462 342CrossRefGoogle ScholarPubMed
Miller, GHAlley, RBBrigham-Grette, JFitzpatrick, JJPolyak, LSerreze, MCWhite, JWC 2010 Arctic amplification: Can the past constrain the future?Quaternary Science Reviews 29 1779CrossRefGoogle Scholar
Bekryaev, RVPolyakovf, IVAlexeev, VA 2010 Role of polar amplification in long-term surface air temperature variations and modern Arctic warmingJournal of Climate 23 3888CrossRefGoogle Scholar
Masson-Delmotte, VKageyama, MBraconnot, PCharbit, SKrinner, GRitz, CGuilyardi, EJouzel, JAbe-Ouchi, ACrucifix, MGladstone, RMHewitt, CDKitoh, ALeGrande, ANMarti, OMerkel, UMotoi, TOhgaito, ROtto-Bliesner, BPeltier, WRRoss, IValdes, PJVettoretti, GWeber, SLWolk, FYu, Y 2006 Past and future polar amplification of climate change: Climate model intercomparisons and ice-core constraintsClimate Dynamics 26 513CrossRefGoogle Scholar
Hansen, JSato, MKharecha, PRussell, GLea, DWSiddal, M 2007 Climate change and trace gasesPhilosophical Transactions of the Royal Society A 365 1925CrossRefGoogle ScholarPubMed
Thompson, LGMosley-Thompson, EBrecher, HDavis, MLeón, BLes, DLin, P-NMashiotta, TMountain, K 2006 Abrupt tropical climate change: Past and presentProceedings of the National Academy of Sciences USA 103 10536CrossRefGoogle ScholarPubMed
Seppä, HBjune, AETelford, RJBirks, HJBVeski, S 2009 Last nine-thousand years of temperature variability in Northern EuropeClimate of the Past Discussions 5 1521CrossRefGoogle Scholar
Alley, RB 2000 The Younger Dryas cold interval as viewed from central GreenlandQuaternary Science Reviews 19 213CrossRefGoogle Scholar
Blaga, CIReichart, G-JLotter, AFAnselmetti, FSinninghe Damsté, JS 2010 Late Glacial to Holocene abrupt temperature changes recorded by Crenarchaeota in Lake Lucerne (Vierwaldstättersee, Switzerland)Geophysical Research Abstracts 12 EGU2010Google Scholar
Calvo, EPelejero, CDe Deckker, PLogan, G 2007 Antarctic deglacial pattern in a 30 kyr record of sea surface temperature offshore South AustraliaGeophysical Research Letters 34 L13707CrossRefGoogle Scholar
Dansgaard, WWhite, JWCJohnsen, S 1989 The abrupt termination of the Younger Dryas climate eventNature 339 532CrossRefGoogle Scholar
Gagan, MKAyliffe, LKBeck, JWCole, JEDruffel, ERMDunbar, RBSchrag, DP 2000 New views of tropical paleoclimates from coralsQuaternary Science Reviews 19CrossRefGoogle Scholar
Griffiths, MLDrysdale, RNVonhof, HBGagan, MKZhao, J-xAyliffe, LKHantoro, WSHellstrom, JCCartwright, IFrisia, SSuwargadi, BW 2010 Younger Dryas–Holocene temperature and rainfall history of southern Indonesia from δ18O in speleothem calcite and fluid inclusionsEarth and Planetary Science Letters 295CrossRefGoogle Scholar
Rodrigues, TGrimalt, JOAbrantes, FNaughton, FFlores, J-A 2010 The last glacial-interglacial transition (LGIT) in the western mid-latitudes of the North Atlantic: Abrupt sea surface temperature change and sea level implicationsQuaternary Science Reviews 29CrossRefGoogle Scholar
Severinghaus, JPSowers, TBrook, EJAlley, RBBender, ML 1998 Timing of abrupt climate change at the end of the Younger Dryas interval from thermally fractionated gases in polar iceNature 391 141CrossRefGoogle Scholar
Tibby, J 2012 The Younger Dryas: Relevant in the Australian region?Quaternary International 253 47CrossRefGoogle Scholar
Denton, GHAnderson, RFToggweiler, JREdwards, RLSchaefer, JMPutnam, AE 2010 The last glacial terminationScience 328 1652CrossRefGoogle ScholarPubMed
Shakun, JDClark, PUHe, FMarcott, SAMix, ACLiu, ZOtto-Bliesner, BSchmittner, ABard, E 2012 Global warming preceded by increasing carbon dioxide concentrations during the last deglaciationNature 484 49CrossRefGoogle ScholarPubMed
Delworth, TLClark, PUHolland, CMJohn, WEKuhlbrodt, TLynch-Steiglitz, JMorrill, CSeager, RWeaver, AJZhang, R 2008
Kobashi, TSeveringhaus, JPBrook, EJBarnola, J-MGrachev, AM 2011 Precise timing and characterization of abrupt climate change 8200 years ago from air trapped in polar iceQuaternary Science Reviews 26 1212CrossRefGoogle Scholar
Upham, W 1895 The glacial Lake AgassizUSGS Monograph XXVGoogle Scholar
Mayewski, PARohling, EEStager, JCKarlen, WMaasch, KAMeeker, LDMeyerson, EAGasse, Fvan Kreveld, SHolmgren, KLee-Thorp, JRosqvist, GRack, FStaubwasser, MSchneider, RRSteig, EJ 2004 Holocene climate variabilityQuaternary Research 62 243CrossRefGoogle Scholar
Shaviv, NJVeizer, J 2003 Celestial driver of Phanerozoic climate?GSA Today 13 42.0.CO;2>CrossRefGoogle Scholar
Monnin, EIndermühle, ADällenbach, AFlückiger, JStauffer, BStocker, TFRaynaud, DBarnola, J-M 2001 Atmospheric CO2 concentrations over the last glacial terminationScience 291 112CrossRefGoogle ScholarPubMed
Caillon, NSeveringhaus, JPJouzel, JBarnola, J-MKang, JLipenkov, VY 2003 Timing of atmospheric CO2 and Antarctic temperature changes across termination IIIScience 299 1728CrossRefGoogle ScholarPubMed
Kennedy, MMrofka, Dvon der Borch, C 2008 Snowball Earth termination by destabilization of equatorial permafrost methane clathrateNature 453 642CrossRefGoogle ScholarPubMed
Paasche, ØBakke, J 2010 Defining the Little Ice AgeClimate of the Past Discussions 6 2159CrossRefGoogle Scholar
Mann, MESchmidt, GA 2003 Ground vs. surface air temperature trends: Implications for borehole surface temperature reconstructionsGeophysical Research Letters 30CrossRefGoogle Scholar
Huang, SPollack, HNShen, P-Y 2008 A late Quaternary climate reconstruction based on borehole heatflux data, borehole temperature data, and the instrumental recordGeophysical Research Letters 35 L13703CrossRefGoogle Scholar
Pollack, HNHuang, SSmerdon, JE 2006 Five centuries of climate change in Australia: The view from undergroundQuaternary Science 21 701CrossRefGoogle Scholar
D’Arrigo, RWilson, RLiepert, BCherubini, P 2008 On the “Divergence Problem” in Northern Forests: A review of the tree-ring evidence and possible causesGlobal and Planetary Change 60 289CrossRefGoogle Scholar
Lloyd, AHBunn, AG 2007 Responses of the circumpolar boreal forest to 20th century climate variabilityEnvironmental Research Letters 2 045013CrossRefGoogle Scholar
D’Arrigo, RWilson, RJacoby, G 2006 On the long-term context for late twentieth century warmingJournal of Geophysical Research 111 D03103Google Scholar
Loso, MGAnderson, RSAnderson, SPReimer, PJ 2006 A 1500-year record of temperature and glacial response inferred from varved Iceberg Lake, southcentral AlaskaQuaternary Research 66 12CrossRefGoogle Scholar
Thompson, LGMosley-Thompson, EBrecher, HDavis, Meón, BLes, DLin, P-NMashiotta, TMountain, K 2006 Abrupt tropical climate change: Past and presentProceedings of the National Academy of Sciences USA 103 10536CrossRefGoogle ScholarPubMed
Keigwin, L 1996 The Little Ice Age and Medieval Warm Period in the Sargasso SeaScience 274 1504CrossRefGoogle ScholarPubMed
Diz, PFrancés, GPelejero, CGrimalt, JOVilas, F 2002 The last 3000 years in the Ría de Vigo (NW Iberian Margin): Climatic and hydrographic signalsHolocene 12 459CrossRefGoogle Scholar
Mann, MEZhihua Zhang, ZRutherford, SBradley, RSHughes, MKShindell, DAmmann, CFaluvegi, GNi, F 2009 Global signatures and dynamical origins of the Little Ice Age and Medieval Climate AnomalyScience 326 1256CrossRefGoogle ScholarPubMed
Mann, MEZhang, ZHughes, MKBradley, RSMiller, SKRutherford, SNi, F 2008 Proxy-based reconstructions of hemispheric and global surface temperature variations over the past two millenniaProceedings of the National Academy of Sciences USA 105 13252CrossRefGoogle ScholarPubMed
Mann, MEJones, PD 2003 Global surface temperatures over the past two millenniaGeophysical Research Letters 30CrossRefGoogle Scholar
Trouet, VEsper, JGraham, NEBaker, AScourse, JDFrank, DC 2009 Persistent positive North Atlantic oscillation mode dominated the Medieval Climate AnomalyScience 324 78CrossRefGoogle ScholarPubMed
McIntyre, SMcKitrick, R 2005 Hockey sticks, principal components and spurious significanceGeophysical Research Letters 32 L03710Google Scholar
Huybers, P 2005 Comment on “Hockey stick principal components and spurious significance”Geophysical Research Letters 32 L20705CrossRefGoogle Scholar
Von Storch, HZorita, E 2005 Comment on “Hockey stick principal components and spurious significance” by S McIntyre and R McKitrickGeophysical Research Letters 32 L20701CrossRefGoogle Scholar
Juckes, MNAllen, MRBriffa, KREsper, JHegerl, GCMoberg, AOsborn, TJWeber, SL 2007 Millennial temperature reconstruction intercomparison and evaluationClimate of the Past 3 591CrossRefGoogle Scholar
Wahl, ERAmmann, CM 2007 Robustness of the Mann, Bradley, Hughes reconstruction of northern hemisphere surface temperatures: Examination of criticisms based on the nature and processing of proxy climate evidenceClimatic Change 85 33CrossRefGoogle Scholar
Von Gunten, LGrosjean, MRein, BUrrutia, RAppleby, P 2009 A quantitative high-resolution summer temperature reconstruction based on sedimentary pigments from Laguna Aculeo, central Chile, back to AD 850Holocene 19 873CrossRefGoogle Scholar
Seppä, HBjune, AETelford, RJBirks, HJBVeski, S 2009 Last nine-thousand years of temperature variability in Northern EuropeClimate of the Past Discussions 5 1521CrossRefGoogle Scholar
Frank, DCEsper, JRaible, CRBüntgen, UTrouet, VStocker, BJoos, F 2010 Ensemble reconstruction constraints on the global carbon cycle sensitivity to climateNature 463 527CrossRefGoogle ScholarPubMed
Kouwenberg, LWagner, RKürschner, WVisscher, H 2005 Atmospheric CO2 fluctuations during the last millennium reconstructed by stomatal frequency analysis of needlesGeology 33 33CrossRefGoogle Scholar
Berger, ALoutre, MF 1997 Long-term variations in insolation and their effects on climate, the LLN experimentsSurveys in Geophysics 18 147CrossRefGoogle Scholar
Mayewsi, PAMaasch, KA 2006 Recent warming inconsistent with natural association between temperature and atmospheric circulation over the last 2000 yearsClimate of the Past Discussions 2 327CrossRefGoogle Scholar
Etheridge, DMSteele, LPLangenfelds, RLFrancey, RJBarnola, J-MMorgan, VI 1988 Natural and anthropogenic changes in atmospheric CO2 over the last 1000 years from air in Antarctic ice and firnJournal of Geophysical Research 101 4115CrossRefGoogle Scholar
Keeling, RFPiper, SCBollenbacher, AFWalker, SJ 2010 1312Trends: A Compendium of Data on Global ChangeOak Ridge National Laboratory, US Department of EnergyOak Ridge, TennGoogle Scholar
Boden, TMarland, GAndres, B 2011 Global CO2 Emissions from Fossil Fuel Burning, Cement Manufacture, and Gas Flaring: 1751–2008Carbon Dioxide Information Analysis Center, Oak Ridge National LaboratoryOak Ridge, TennGoogle Scholar
Czelpak, GJunge, C 1974 Turbulent Diffusion in Environmental Pollution 18BAcademic PressGoogle Scholar
Manning, ACKeeling, RF 2006 Global oceanic and land biotic carbon sinks from the Scripps atmospheric oxygen flask sampling networkTellus 58B 95CrossRefGoogle Scholar
West, PCGibbs, HKMonfreda, CWagner, JBarford, CCCarpenter, SRFoley, JA 2010 Trading carbon for food: Global comparison of carbon stocks vs. crop yields on agricultural landProceedings of the National Academy of Sciences USA 107 19645CrossRefGoogle ScholarPubMed
Peters, GPMarland, GLe Quéré, CBoden, TCanadell, JGRaupach, MR 2012 Rapid growth in CO2 emissions after the 2008–2009 global financial crisisNature Climate Change 2 2CrossRefGoogle Scholar
Le Quéré, CRaupach, MRCanadell, JGMarland, GBopp, LCiais, PConway, TJDoney, SCFeely, RAFoster, PFriedlingstein, PGurney, KHoughton, RAHouse, JIHuntingford, CLevy, PELomas, MRMajkut, JMetzl, NOmetto, JPPeters, GPPrentice, ICRanderson, JTRunning, SWSarmiento, JLSchuster, USitch, STakahashi, TViovy, Nvan der Werf, GRWoodward, FI 2009 Trends in the sources and sinks of carbon dioxideNature Geosciences 2 831CrossRefGoogle Scholar
Blain, S 2007 Effect of natural iron fertilization on carbon sequestration in the Southern OceanNature 446 1070CrossRefGoogle ScholarPubMed
Bertram, C 2009
Strong, AChisholm, SMiller, CCullen, J 2009 Ocean fertilization: Time to move onNature 461 347CrossRefGoogle Scholar
Shakhova, NSemiletov, ISalyuk, AYusupov, VKosmach, DGustafsson, Ö 2010 Extensive methane venting to the atmosphere from sediments of the East Siberian Arctic ShelfScience 327 1246CrossRefGoogle ScholarPubMed
Buffett, BArcher, D 2004 Global inventory of methane clathrate: Sensitivity to changes in the deep oceanEarth and Planetary Science Letters 227 185CrossRefGoogle Scholar
Carter, RM 2010
Plimer, I 2011
Callendar, GS 1938 The artificial production of carbon dioxide and its influence on climateQuarterly Journal of the Royal Meteorological Society 64 223CrossRefGoogle Scholar
2003 www.aip.org/history
Plimer, IR 2009
Pearson, PMPalmer, MR 2000 Atmospheric carbon dioxide concentrations over the past 60 million yearsNature 406 695CrossRefGoogle ScholarPubMed
Klyashtorin, LBLyubushin, AA 2003 On the coherence between dynamics of the world fuel consumption and global temperature anomalyEnergy & Environment 14 733CrossRefGoogle Scholar
Willis, JKLyman, JMJohnson, GCGilson, J 2007 Correction to “Recent cooling of the upper ocean”Geophysical Research Letters 34 L16601CrossRefGoogle Scholar
Polyakov, IVBekryaev, RVAlekseev, GVBhatt, USColony, RLJohnson, MAMaskshtas, APWalsh, D 2003 Variability and trends of air temperature and pressure in the maritime Arctic, 1875–2000Journal of Climate 16 20672.0.CO;2>CrossRefGoogle Scholar
Pryzbylak, R 2007 Recent air-temperature changes in the ArcticAnnals of Glaciology 46 316CrossRefGoogle Scholar
Mann, MEBradley, RSHughes, MK 1998 Global-scale temperature patterns and climate forcing over the past six centuriesNature 392 779CrossRefGoogle Scholar
Mann, MEJones, PD 2003 Global surface temperatures over the past millenniaGeophysical Research Letters 30 1820CrossRefGoogle Scholar
Segalstad, TV 1998 2
Beck, E-G 2007 180 years of atmospheric CO2 gas analysis by chemical methodsEnergy & Environment 18 259CrossRefGoogle Scholar
Bray, JR 1958 An analysis of the possible recent change in atmospheric carbon dioxide concentrationTellus XI 220Google Scholar
Keeling, RJ 2007 Comment on “180 years of atmospheric CO2 gas analysis by chemical methods” by Ernst-Georg BeckEnergy and Environment 18 259Google Scholar
Pataki, DEBowling, DREhleringer, JR 2003 Seasonal cycle of carbon dioxide and its isotopic composition in an urban atmosphere: Anthropogenic and biogenic effectsJournal of Geophysical Research 108 4735CrossRefGoogle Scholar
Brown, HTEscombe, F 1905 On the variations in the amount of carbon dioxide in the air of Kew during the years 1898–1901Proceedings of the Royal Society B 76 118CrossRefGoogle Scholar
Fonselius, SKoroleff, FWärme, K-E 1956 Carbon dioxide variations in the atmosphereTellus 8 176CrossRefGoogle Scholar
Santer, BDThorne, PWHaimberger, LTaylor, KEWigley, TMLLanzante, JRSolomon, SFree, MGleckler, PJJones, PDKarl, TRKlein, SAMears, CNychka, DSchmidt, GASherwood, SCWentz, FJ 2008 Consistency of modelled and observed temperature trends in the tropical troposphereInternational Journal of Climatology 28 1703CrossRefGoogle Scholar
Lockwood, M 2008 Recent changes in solar outputs and the global mean surface temperature. III. Analysis of contributions to global mean air surface temperature riseProceedings of the Royal Society A 464 1387CrossRefGoogle Scholar
Hansen, JJohnson, DLacis, ALebedeff, SLee, PRind, DRussell, G 1981 Climate impact of increasing atmospheric carbon dioxideScience 213 957CrossRefGoogle ScholarPubMed
Hansen, JFung, ILacis, ARind, DLebedeff, SRuedy, RRussell, G 1988 Global climate changes as forecast by Goddard Institute for Space Studies three-Dimensional modelJournal of Geophysical Research 93CrossRefGoogle Scholar
1988
Hansen, JSato, MRuedy, RLo, KLea, DWMedina-Elizade, M 2006 Global temperature changeProceedings of the National Academy of Sciences USA 103 14288CrossRefGoogle ScholarPubMed
Rahmstorf, SCazenave, AChurch, JAHansen, JEKeeling, RFParker, DESomerville, RCJ 2007 Recent climate observations compared to projectionsScience 316CrossRefGoogle ScholarPubMed
Pielke, RA 2008 Climate predictions and observationsNature Geoscience 1CrossRefGoogle Scholar
Schmittner, AUrban, NMShakun, JDMahowald, NMClark, PUBartlein, PJMix, ACRosell-Melé, A 2011 Climate sensitivity estimated from temperature reconstructions of the last glacial maximumScience 334 1385CrossRefGoogle ScholarPubMed
Pagani, MLiu, ZLaRiviere, JRavelo, AC 2010 High Earth-system climate sensitivity determined from Pliocene carbon dioxide concentrationsNature Geoscience 3 27CrossRefGoogle Scholar
Royer, DLPagani, MBeerling, DJ 2011 Geologic constraints on Earth system sensitivity to CO2 during the Cretaceous and early PaleogeneEarth System Dynamics Discussions 2 211CrossRefGoogle Scholar
Charney, J 1979 2011 Carbon Dioxide and Climate: A Scientific AssessmentNational Academy of Sciences PressWashington, DCGoogle Scholar
Rogelj, JMeinshausen, MKnutti, R 2012 Global warming under old and new scenarios using IPCC climate sensitivity range estimatesNature Climate Change 2 248CrossRefGoogle Scholar
Köhler, PBintanja, RFischer, HJoos, FKnutti, RLohmann, GMasson-Delmotte, V 2009 What caused Earth’s temperature variations during the last 800,000 years? Data-based evidence on radiative forcing and constraints on climate sensitivityQuaternary Science Reviews 29 129CrossRefGoogle Scholar
Lindzen, RSChoi, Y-S 2011 On the observational determination of climate sensitivity and its implicationsAsia-Pacific Journal of Atmospheric Science 47 377CrossRefGoogle Scholar
Hansen, J 2009 Storms of My GrandchildrenBloomsburyGoogle Scholar
Lindzen, RS 2007 Taking greenhouse warming seriouslyEnergy and Environment 18 937CrossRefGoogle Scholar
Park, J 2009 A re-evaluation of the coherence between global-average atmospheric CO2 and temperatures at interannual time scalesGeophysical Research Letters 36 L22704CrossRefGoogle Scholar
Wigley, TML 2005 The climate change commitmentScience 307 1766CrossRefGoogle ScholarPubMed
Eby, MZickfeld, KMontenegro, AArcher, DMeissner, KJWeaver, AJ 2009 Lifetime of anthropogenic climate change: Millennial time scales of potential CO2 and surface temperature perturbationsJournal of Climate 22 2501CrossRefGoogle Scholar
Pittock, AB 2008
Lenton, TMHeld, HKriegler, EHall, JWLucht, WRahmstorf, SSchellnhuber, HJ 2008 Tipping elements in the Earth’s climate systemProceedings of the National Academy of Sciences USA 105 1786CrossRefGoogle ScholarPubMed
Sherwood, SCHuber, M 2011 An adaptability limit to climate change due to heat stressProceedings of the National Academy of Sciences USA 107 9552CrossRefGoogle Scholar
Lobell, DBSibley, AOrtiz-Monasterio, JI 2012 Extreme heat effects on wheat senescence in IndiaNature Climate Change 2 186CrossRefGoogle Scholar
Ainsworth, EA 2008 Rice production in a changing climate: A meta-analysis of responses to elevated carbon dioxide and elevated ozone concentrationGlobal Change Biology 14 1642CrossRefGoogle Scholar
Leakey, ADBAinsworth, AABernacchi, CJRogers, ALong, SPOrt, DR 2009 Elevated CO2 effects on plant carbon, nitrogen, and water relations: six important lessons from FACEJournal of Experimental Botany 60 2859CrossRefGoogle ScholarPubMed
Ainsworth, EALong, SP 2005 What have we learned from 15 years of free-air CO2 enrichment (FACE)? A meta-analytic review of the responses of photosynthesis, canopy properties and plant production to rising CO2New Phytologist 165 351CrossRefGoogle ScholarPubMed
Ainsworth, LGillespie, K 2010 How will all that extra CO2 affect crops?Change and the Heartland 1 University of IllinoisGoogle Scholar
Terao, TMiura, SYanagihara, THirose, TNagata, KTabuchi, HKim, H-YLieffering, MOkada, MKobayashi, K 2005 Influence of free-air CO2 enrichment (FACE) on the eating quality of riceJournal of the Science of Food and Agriculture 85 1861CrossRefGoogle Scholar
Taub, DRMiller, BAllen, H 2008 Effects of elevated CO2 on the protein concentration of food crops: A meta-analysisGlobal Change Biology 14 565CrossRefGoogle Scholar
Högy, PFangmeier, A 2008 Effects of elevated atmospheric CO2 on grain quality of wheatJournal of Cereal Science 48 580CrossRefGoogle Scholar
Wilson, PLRingrose-Voase, AJacquier, DGregory, LWebb, MWong, MTFPowell, BBrough, DHill, JLynch, BSchoknecht, NGriffin, T 2009 Northern Australia Land and Water Science Review,CSIRO PublishingGoogle Scholar
Felderhof, LGillieson, D 2006 Comparison of fire patterns and fire frequency in two tropical savanna bioregionsAustral Ecology 31 736CrossRefGoogle Scholar
Steffen, WBurbridge, AAHughes, LKitching, RLindenmayer, DMusgrave, WStafford Smith, MWerner, PA 2009 Australia’s Biodiversity and Climate ChangeCSIRO PublishingGoogle Scholar
2010 www.royalcommission.vic.gov.au
Sinervo, 2010 Erosion of lizard diversity by climate change and altered thermal nichesScience 328 894CrossRefGoogle ScholarPubMed
Hansen, J 2009
Rahmstorf, S 2010
Church, JAHunter, JRMcInnes, KLWhite, NJ 2006 Sea-level rise around the Australian coastline and the changing frequency of extreme sea-level eventsAustralian Meteorological Magazine 55 253Google Scholar
Great Barrier Reef Foundation 2009
Great Barrier Reef Foundation 2009 www.barrierreef.org
Hoegh-Guldberg, O 2007 Climate Change and the Great Barrier ReefGreat Barrier Reef Marine Park Authority and Australian Greenhouse OfficeGoogle Scholar
Doney, SCFabry, VJFeely, RAKleypas, JA 2009 Ocean acidification: The other CO2 problemAnnual Reviews of Marine Science 1 169CrossRefGoogle ScholarPubMed
Schellnhuber, HJ 2010 Tragic triumphClimatic Change 100 229CrossRefGoogle Scholar
Jacobsen, MZDelucchi, A 2011 Providing all global energy with wind, water, and solar power, Part I: Technologies, energy resources, quantities and areas of infrastructure, and materialsEnergy Policy 39 1154CrossRefGoogle Scholar
Miller, LMGans, FKleidon, A 2010 Estimating maximum global land surface wind power extractability and associated climatic consequencesEarth System Dynamics Discussions 1 169CrossRefGoogle Scholar
Woolf, DAmonette, JEStreet-Perrot, FALehmann, JJoseph, S 2010 Sustainable biochar to mitigate global climate changeNature Communications 1CrossRefGoogle ScholarPubMed
Crutzen, P 2006 Albedo enhancement by stratospheric sulfur injections: A contribution to resolve a policy dilemmaClimatic Change 77 211CrossRefGoogle Scholar
Smith, SJvan Aardenne, JKlimont, ZAndres, RJVolke, ADelgado Arias, S 2011 Anthropogenic sulfur dioxide emissions: 1850–2005Atmospheric Chemistry and Physics 11 1101CrossRefGoogle Scholar
Wood, G 2009 www.theatlantic.com/magazine
Hamilton, C 2010 An evil atmosphere is forming around geoengineeringNew Scientist 2769Google Scholar
Wigley, TML 2006 A combined mitigation/geoengineering approach to climate stabilizationScience 314 452CrossRefGoogle ScholarPubMed
Caldeira, KWood, L 2008 Global and Arctic climate engineering: Numerical model studiesPhilosophical Transactions of the Royal Society A, 366 4039CrossRefGoogle ScholarPubMed
Kerr, RA 2006 Pollute the planet for climate’s sake?ScienceCrossRefGoogle ScholarPubMed
Ricke, KLMorgan, MGAllen, MR 2010 Regional climate response to solar-radiation managementNature Geoscience 3 537CrossRefGoogle Scholar
Wigley, TML 2011 Coal to gas: The influence of methane leakageClimatic Change 108 601CrossRefGoogle Scholar

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  • Notes
  • Tony Eggleton, Australian National University, Canberra
  • Book: A Short Introduction to Climate Change
  • Online publication: 05 November 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9781139524353.014
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  • Notes
  • Tony Eggleton, Australian National University, Canberra
  • Book: A Short Introduction to Climate Change
  • Online publication: 05 November 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9781139524353.014
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  • Notes
  • Tony Eggleton, Australian National University, Canberra
  • Book: A Short Introduction to Climate Change
  • Online publication: 05 November 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9781139524353.014
Available formats
×