Special issues

This article appears in the special issue "Holocene peatland carbon dynamics in the circum-Arctic region", which comprises 14 articles and emerged from the PAGES-supported meeting: Holocene Circum-Arctic Peatland Carbon Dynamics - Community-Wide Data Synthesis and Modeling Initiatives, which took place from the 12-16 October 2013 in Bethlehem, Pennsylvania. It is a precursor product of PAGES' C-PEAT Working Group.

This special issue, comprising 14 articles, emerged from the PAGES-supported meeting: Holocene Circum-Arctic Peatland Carbon Dynamics - Community-Wide Data Synthesis and Modeling Initiatives, which took place from the 12-16 October 2013 in Bethlehem, Pennsylvania. It is a precursor product of PAGES' C-PEAT Working Group.

> Holocene peatland carbon dynamics in the circum-Arctic region: An introduction [p.1021]
Yu Z, Loisel J, Charman DJ, Beilman DW & Camill P

> A database and synthesis of northern peatland soil properties and Holocene carbon and nitrogen accumulation [p.1028]
Loisel J, Yu Z, Beilman DW, Camill P, Alm J, Amesbury MJ, Anderson D, Andersson S, Bochicchio C, Barber K, Belyea LR, Bunbury J, Chambers FM, Charman DJ, Vleeschouwer FD, Fiałkiewicz-Kozieł B, Finkelstein SA, Gałka M, Garneau M, Hammarlund D, Hinchcliffe W, Holmquist J, Hughes P, Jones MC, Klein ES, Kokfelt U, Korhola A, Kuhry P, Lamarre A, Lamentowicz M, Large D, Lavoie M, MacDonald G, Magnan G, Mäkilä M, Mallon G, Mathijssen P, Mauquoy D, McCarroll J, Moore TR, Nichols J, O’Reilly B, Oksanen P, Packalen M, Peteet D, Richard PJ, Robinson S, Ronkainen T, Rundgren M, Sannel ABK, Tarnocai C, Thom T, Tuittila E-S, Turetsky M, Väliranta M, Linden Mvd, Geel Bv, Bellen Sv, Vitt D, Zhao Y & Zhou W

> Holocene carbon dynamics of boreal and subarctic peatlands from Québec, Canada [p.1043]
Garneau M, van Bellen S, Magnan G, Beaulieu-Audy V, Lamarre A & Asnong H

> Climatic and autogenic control on Holocene carbon sequestration in ombrotrophic peatlands of maritime Quebec, eastern Canada [p.1054]
Magnan G & Garneau M

> Quantifying Holocene variability in carbon uptake and release since peat initiation in the Hudson Bay Lowlands, Canada [p.1063]
Packalen MS & Finkelstein SA

> Peatland succession and long-term apparent carbon accumulation in central and northern Ontario, Canada [p.1075]
Holmquist JR & MacDonald MM

> Continental fens in western Canada as effective carbon sinks during the Holocene [p.1090]
Yu Z, Vitt DH & Wieder RK

> Relative importance of climatic and autogenic controls on Holocene carbon accumulation in a temperate bog in southern Ontario, Canada [p.1105]
Shiller JA, Finkelstain SA & Cowling SA

> Carbon accumulation in peat deposits from northern Sweden to northern Germany during the last millennium [p.1117]
van der Linden M, Heijmans MMPD & van Geel B

> Recent paludification rates and effects on total ecosystem carbon storage in two boreal peatlands of Northeast European Russia [p.1126]
Pluchon N, Hugelius G, Kuusinen N & Kuhry P

> Holocene peatland initiation, lateral expansion, and carbon dynamics in the Zoige Basin of the eastern Tibetan Plateau [p.1137]
Zhao Y, Tang Y, Yu Z, Li H, Yang B, Zhao W, Li F & Li Q

> Impacts of climate and vegetation change on carbon accumulation in a south-central Alaskan peatland assessed with novel organic geochemical techniques [p.1146]
Nichols JE, Peteet DM, Moy CM, Castaneda IS, McGeachy A & Perez M

> Development, carbon accumulation, and radiative forcing of a subarctic fen over the Holocene [p.1156]
Mathijssen P, Tuovinen J-P, Lohila A, Aurela M, Juutinen S, Laurila T, Niemela E, Tuittila E-S & Väliranta

> Exploring the relationship between peatland net carbon balance and apparent carbon accumulation rate at century to millennial time scales [p.1167]
Frolking S, Talbot J & Subin ZM

This special issue was supported by the EGU in recognition of the exceptional services of André Berger. The meeting held 26-29 May 2008 in Louvain-la-Neuve was cofunded by IGBP Past Global Changes (PAGES).

> Preface "Climate change: from the geological past to the uncertain future – a symposium honouring André Berger" [p.707]
Crucifix M, Claussen M, Ganssen G, Guiot J, Guo Z, Kiefer T, Loutre M-F, Rousseau D-D & Wolff E

> Corrigendum to Preface "Climate change: from the geological past to the uncertain future – a symposium honouring André Berger" [p.723]
Crucifix M, Claussen M, Ganssen G, Guiot J, Guo Z, Kiefer T, Loutre M-F, Rousseau D-D & Wolff E

> Antarctic ice-sheet response to atmospheric CO2 and insolation in the Middle Miocene [p.633]
Langebroek PM, Paul A & Schulz M

> A few prospective ideas on climate reconstruction: from a statistical single proxy approach towards a multi-proxy and dynamical approach [p.571]
Guiot J, Wu HB, Garreta V, Hatte C, Magny M

> Changes in atmospheric variability in a glacial climate and the impacts on proxy data: a model intercomparison [p.489]
Pausata FSR, Li C, Wettstein JJ, Nisancioglu KH & Battisti DS

> Pleistocene glacial variability as a chaotic response to obliquity forcing [p.481]
Huybers P

> The 15th century Arctic warming in coupled model simulations with data assimilation [p.389]
Crespin E, Goosse H, Fichefet T & Mann ME

> Mid-Pliocene shifts in ocean overturning circulation and the onset of Quaternary-style climates [p.269]
Sarnthein M, Bartoli G, Prange M, Schmittner A, Schneider B, Weinelt M, Andersen N & Garbe-Schönberg D

> Individual and combined effects of ice sheets and precession on MIS-13 climate [p.229]
Yin QZ, Berger A & Crucifix M

> Late Quaternary vegetation-climate feedbacks [p.203]
Claussen M

> Impacts of land surface properties and atmospheric CO2 on the Last Glacial Maximum climate: a factor separation analysis [p.183]
Henrot AJ, Francois L, Brewer S & Munhoven G

> Two millennia of climate variability in the Central Mediterranean [p.171]
Taricco C, Ghil M, Alessio S & Vivaldo G

> Three exceptionally strong East-Asian summer monsoon events during glacial times in the past 470 kyr [p.157]
Rousseau D-D, Wu N, Pei Y & Li F

> Strong asymmetry of hemispheric climates during MIS-13 inferred from correlating China loess and Antarctica ice records [p.21]
Guo ZT, Berger A, Yin QZ & Qin L

> The Southern Hemisphere at glacial terminations: insights from the Dome C ice core [p.345]
Röthlisberger R, Mudelsee M, Bigler M, de Angelis M, Fischer H, Hansson M, Lambert F, Masson-Delmotte V, Sime L, Udisti R & Wolff E

> The carbon cycle during the Mid Pleistocene Transition: the Southern Ocean Decoupling Hypothesis [p.311]
Köhler P & Bintanja R

Selected papers from the annual QUEEN workshops held in Oystese, Norway, April 1999, and in Lund, Sweden, April 2000. PAGES supported the QUEEN project, through its Polar Programs initiative.

> The late Quaternary stratigraphy and environments of northern Eurasia and the adjacent Arctic seas—new contributions from QUEEN [p.vii]

> Pleistocene stratigraphy and paleoenvironmental variation from Lomonosov Ridge sediments, central Arctic Ocean [p.1]

> Detailed mineralogical evidence for two nearly identical glacial/deglacial cycles and Atlantic water advection to the Arctic Ocean during the last 90,000 years [p.23]

> Marine ice-rafted debris records constrain maximum extent of Saalian and Weichselian ice-sheets along the northern Eurasian margin [p.45]

> Late Quaternary dinoflagellate cyst stratigraphy at the Eurasian continental margin, Arctic Ocean: indications for Atlantic water inflow in the past 150,000 years [p.65]

> Accumulation of particulate organic carbon at the Eurasian continental margin during late Quaternary times: controlling mechanisms and paleoenvironmental significance [p.87]

> The Late Quaternary evolution of the western Laptev Sea continental margin, Arctic Siberia—implications from sub-bottom profiling [p.105]

> Chronology of the Holocene transgression at the North Siberian margin [p.125]

> A Holocene pollen record from the Laptev Sea shelf, northern Yakutia [p.141]

> Postglacial relative sea-level change and stratigraphy of raised coastal basins on Kola Peninsula, northwest Russia [p.155]

> Late Pleistocene stratigraphy and sedimentary environment of the Arkhangelsk area, northwest Russia [p.179]

> Distinguishing between tills from Valdaian ice sheets in the Arkhangelsk region, Northwest Russia [p.201]

> Early and Middle Valdaian glaciations, ice-dammed lakes and periglacial interstadials in northwest Russia: new evidence from the Pyoza River area [p.215]

> Late Quaternary stratigraphy, radiocarbon chronology, and glacial history at Cape Shpindler, southern Kara Sea, Arctic Russia [p.239]

> Environmental changes on Yugorski Peninsula, Kara Sea, Russia, during the last 12,800 radiocarbon years [p.255]

> Climatic implications of Late Quaternary plant macrofossil assemblages from the Taymyr Peninsula, Siberia [p.265]

> The stratigraphic framework for the Upper Pleistocene of the glaciated Russian Arctic: changing paradigms [p.283]

> Weichselian stratigraphy and glaciotectonic deformation along the lower Pechora River, Arctic Russia [p.297]

> The chronology of a large ice-dammed lake and the Barents–Kara Ice Sheet advances, Northern Russia [p.321]

> Where was the outlet of the ice-dammed Lake Komi, Northern Russia? [p.337]

> Mikulino and Valdai palaeoenvironments in the Vologda area, NW Russia [p.347]

> Modelling the Eurasian Ice Sheet through a full (Weichselian) glacial cycle [p.367]

> Deglaciation chronology of the Scandinavian Ice Sheet from the Lake Onega Basin to the Salpausselkä End Moraines [p.387]

> Extent and age of the Last Glacial Maximum in the southeastern sector of the Scandinavian Ice Sheet [p.407]

> The North Taymyr ice-marginal zone, Arctic Siberia—a preliminary overview and dating [p.427]

> Constraints for the latest glacial advance on Wrangel Island, Arctic Ocean, from rock surface exposure dating [p.447]

> The extent of the Late Weichselian ice sheet in the southeastern Barents Sea [p.453]

This special issue emerged from a PAGES-supported meeting "Palaeoclimate Modelling Intercomparison Project Phase 3 (PMIP3) - Towards IPCC AR5" which took place from the 6-11 May 2012 in Crewe, UK.

> Using palaeo-climate comparisons to constrain future projections in CMIP5 [p.221]
Schmidt GA, Annan JD, Bartlein PJ, Cook BI, Guilyardi E, Hargreaves JC, Harrison SP, Kageyama M, LeGrande AN, Konecky B, Lovejoy S, Mann ME, Masson-Delmotte V, Risi C, Thompson D, Timmermann A, Tremblay LB, and Yiou P

> Evaluating the dominant components of warming in Pliocene climate simulations [p.79]
Hill DJ, Haywood AM, Lunt DJ, Hunter SJ, Bragg FJ, Contoux C, Stepanek C, Sohl L, Rosenbloom NA, Chan W-L, Kamae Y, Zhang Z, Abe-Ouchi A, Chandler MA, Jost A, Lohmann G, Otto-Bliesner BL, Ramstein G & Ueda H

> Mid-Holocene ocean and vegetation feedbacks over East Asia [p.2153]
Tian Z & Jiang D

> Mid-Pliocene East Asian monsoon climate simulated in the PlioMIP [p.2085]
Zhang R, Yan Q, Zhang ZS, Jiang D, Otto-Bliesner BL, Haywood AM, Hill DJ, Dolan AM, Stepanek C, Lohmann G, Contoux C, Bragg F, Chan W-L, Chandler MA, Jost A, Kamae Y, Abe-Ouchi A, Ramstein G, Rosenbloom NA, Sohl L & Ueda H

> The last interglacial (Eemian) climate simulated by LOVECLIM and CCSM3 [p.1789]
Nikolova I, Yin Q, Berger A, Singh UK & Karami MP

> LGM permafrost distribution: how well can the latest PMIP multi-model ensembles perform reconstruction? [p.1697]
Saito K, Sueyoshi T, Marchenko S, Romanovsky V, Otto-Bliesner B, Walsh J, Bigelow N, Hendricks A & Yoshikawa K

> Tropical vegetation response to Heinrich Event 1 as simulated with the UVic ESCM and CCSM3 [p.1683]
Handiani D, Paul A, Prange M, Merkel U, Dupont L & Zhang X

> Influence of dynamic vegetation on climate change and terrestrial carbon storage in the Last Glacial Maximum [p.1571]
O'ishi R & Abe-Ouchi A

> Can an Earth System Model simulate better climate change at mid-Holocene than an AOGCM? A comparison study of MIROC-ESM and MIROC3 [p.1519]
Ohgaito R, Sueyoshi T, Abe-Ouchi A, Hajima T, Watanabe S, Kim H-J, Yamamoto A & Kawamiya M

> Mid-pliocene Atlantic Meridional Overturning Circulation not unlike modern [p.1495]
Zhang Z-S, Nisancioglu KH, Chandler MA, Haywood AM, Otto-Bliesner BL, Ramstein G, Stepanek C, Abe-Ouchi A, Chan W-L, Bragg FJ, Contoux C, Dolan AM, Hill DJ, Jost A, Kamae Y, Lohmann G, Lunt DJ, Rosenbloom NA, Sohl LE & Ueda H

> Megalake Chad impact on climate and vegetation during the late Pliocene and the mid-Holocene [p.1417]
Contoux C, Jost A, Ramstein G, Sepulchre P, Krinner G & Schuster M

> Historical and idealized climate model experiments: an intercomparison of Earth system models of intermediate complexity [p.1111]
Eby M, Weaver AJ, Alexander K, Zickfeld K, Abe-Ouchi A, Cimatoribus AA, Crespin E, Drijfhout SS, Edwards NR, Eliseev AV, Feulner G, Fichefet T, Forest CE, Goosse H, Holden PB, Joos F, Kawamiya M, Kicklighter D, Kienert H, Matsumoto K, Mokhov II, Monier E, Olsen SM, Pedersen JOP, Perrette M, Philippon-Berthier G, Ridgwell A, Schlosser A, Deimling TSv, Shaffer G, Smith RS, Spahni R, Sokolov AP, Steinacher M, Tachiiri K, Tokos K, Yoshimori M, Zeng N & Zhao F

> The sensitivity of the Arctic sea ice to orbitally induced insolation changes: a study of the mid-Holocene Paleoclimate Modelling Intercomparison Project 2 and 3 simulations [p.969]
Berger M, Brandefelt J & Nilsson J

> Model sensitivity to North Atlantic freshwater forcing at 8.2 ka [p.955]
Morrill C, LeGrande AN, Renssen H, Bakker P & Otto-Bliesner BL

> Climatic impacts of fresh water hosing under Last Glacial Maximum conditions: a multi-model study [p.935]
Kageyama M, Merkel U, Otto-Bliesner B, Prange M, Abe-Ouchi A, Lohmann G, Ohgaito R, Roche DM, Singarayer J, Swingedouw D & Zhang X

> Skill and reliability of climate model ensembles at the Last Glacial Maximum and mid-Holocene [p.811]
Hargreaves JC, Annan JD, Ohgaito R, Paul A & Abe-Ouchi A

> A multi-model assessment of last interglacial temperatures [p.699]
Lunt DJ, Abe-Ouchi A, Bakker P, Berger A, Braconnot P, Charbit S, Fischer N, Herold N, Jungclaus JH, Khon VC, Krebs-Kanzow U, Langebroek PM, Lohmann G, Nisancioglu KH, Otto-Bliesner BL, Park W, Pfeiffer M, Phipps SJ, Prange M, Rachmayani R, Renssen H, Rosenbloom N, Schneider B, Stone EJ, Takahashi K, Wei W, Yin Q & Zhang ZS

> Last interglacial temperature evolution – a model inter-comparison [p.605]
Bakker P, Stone EJ, Charbit S, Gröger M, Krebs-Kanzow U, Ritz SP, Varma V, Khon V, Lunt DJ, Mikolajewicz U, Prange M, Renssen H, Schneider B & Schulz M

> Southern westerlies in LGM and future (RCP4.5) climates [p.517]
Chavaillaz Y, Codron F & Kageyama M

> The East Asian Summer Monsoon at mid-Holocene: results from PMIP3 simulations [p.453]
Zheng W, Wu B, He J & Yu Y

> Proxy benchmarks for intercomparison of 8.2 ka simulations [p.423]
Morrill C, Anderson DM, Bauer BA, Buckner R, Gille EP, Gross WS, Hartman M & Shah A

> Large-scale temperature response to external forcing in simulations and reconstructions of the last millennium [p.393]
Fernández-Donado L, González-Rouco JF, Raible CC, Ammann CM, Barriopedro D, García-Bustamante E, Jungclaus JH, Lorenz SJ, Luterbacher J, Phipps SJ, Servonnat J, Swingedouw D, Tett SFB, Wagner S, Yiou P & Zorita E

> Large-scale features of Pliocene climate: results from the Pliocene Model Intercomparison Project [p.191]
Haywood AM, Hill DJ, Dolan AM, Otto-Bliesner BL, Bragg F, Chan W-L, Chandler MA, Contoux C, Dowsett HJ, Jost A, Kamae Y, Lohmann G, Lunt DJ, Abe-Ouchi A, Pickering SJ, Ramstein G, Rosenbloom NA, Salzmann U, Sohl L, Stepanek C, Ueda H, Yan Q & Zhang Z

> A model–data comparison for a multi-model ensemble of early Eocene atmosphere–ocean simulations: EoMIP [p.1717]
Lunt DJ, Jones TD, Heinemann M, Huber M, LeGrande A, Winguth A, Loptson C, Marotzke J, Roberts CD, Tindall J, Valdes P & Winguth C

This special issue emerged from the PAGES-supported International Partnerships in Ice Core Sciences (IPICS): 2012 First Open Science Conference which took place from the 1 - 5 October 2012 in Giens, France.

> Siple Dome shallow ice cores: a study in coastal dome microclimatology [p.1253]
Jones TR, White JWC and Popp T

> Centennial-scale variability of the Southern Hemisphere westerly wind belt in the eastern Pacific over the past two millennia [p.1125]
Koffman BG, Kreutz KJ, Breton DJ, Kane EJ, Winski DA, Birkel SD, Kurbatov AV & Handley MJ

> Temperature and precipitation signal in two Alpine ice cores over the period 1961–2001 [p.1093]
Mariani I, Eichler A, Jenk TM, Brönnimann S, Auchmann R, Leuenberger MC & Schwikowski M

> High resolution measurements of carbon monoxide along a late Holocene Greenland ice core: evidence for in situ production [p.987]
Faïn X, Chappellaz J, Rhodes RH, Stowasser C, Blunier T, McConnell JR, Brook EJ, Preunkert S, Legrand M, Debois T & Romanini D

> Spatial–temporal dynamics of chemical composition of surface snow in East Antarctica along the Progress station–Vostok station transect [p.931]
Khodzher TV, Golobokova LP, Osipov EY, Shibaev YA, Lipenkov VY, Osipova OP & Petit JR

> High-resolution 900 year volcanic and climatic record from the Vostok area, East Antarctica [p.843]
Osipov EY, Khodzher TV, Golobokova LP, Onischuk NA, Lipenkov VY, Ekaykin AA, Shibaev YA & Osipova OP

> Gas diffusivity and permeability through the firn column at Summit, Greenland: measurements and comparison to microstructural properties [p.319]
Adolph AC & Albert MR

> Influence of regional precipitation patterns on stable isotopes in ice cores from the central Himalayas [p.289]
Pang H, Hou S, Kaspari S & Mayewski PA

> Accumulation reconstruction and water isotope analysis for 1736–1997 of an ice core from the Ushkovsky volcano, Kamchatka, and their relationships to North Pacific climate records [p.393]
Sato T, Shiraiwa T, Greve R, Seddik H, Edelmann E & Zwinger T

> Diffusive equilibration of N2, O2 and CO2 mixing ratios in a 1.5-million-years-old ice core [p.245]
Bereiter B, Fischer H, Schwander J & Stocker TF

> Impact of physical properties and accumulation rate on pore close-off in layered firn [p.91]
Gregory SA, Albert MR and Baker I

> High-resolution mineral dust and sea ice proxy records from the Talos Dome ice core [p.2789]
Schüpbach S, Federer U, Kaufmann PR, Albani S, Barbante C, Stocker TF & Fischer H

> A first chronology for the North Greenland Eemian Ice Drilling (NEEM) ice core [p.2713]
Rasmussen SO, Abbott PM, Blunier T, Bourne AJ, Brook E, Buchardt SL, Buizert C, Chappellaz J, Clausen HB, Cook E, Dahl-Jensen D, Davies SM, Guillevic M, Kipfstuhl S, Laepple T, Seierstad IK, Severinghaus JP, Steffensen JP, Stowasser C, Svensson A, Vallelonga P, Vinther BM, Wilhelms F & Winstrup M

> High-resolution glacial and deglacial record of atmospheric methane by continuous-flow and laser spectrometer analysis along the NEEM ice core [p.2579]
Chappellaz J, Stowasser C, Blunier T, Baslev-Clausen D, Brook EJ, Dallmayr R, Faïn X, Lee JE, Mitchell LE, Pascual O, Romanini D, Rosen J & Schüpbach S

> A new Himalayan ice core CH4 record: possible hints at the preindustrial latitudinal gradient [p.2549]
Hou S, Chappellaz J, Raynaud D, Masson-Delmotte V, Jouzel J, Bousquet P & Hauglustaine D

> A brief history of ice core science over the last 50 yr [p.2525]
Jouzel J

> A reconstruction of atmospheric carbon dioxide and its stable carbon isotopic composition from the penultimate glacial maximum to the last glacial inception [p.2507]
Schneider R, Schmitt J, Köhler P, Joos F & Fischer H

> Where to find 1.5 million yr old ice for the IPICS "Oldest-Ice" ice core [p.2489]
Fischer H, Severinghaus J, Brook E, Wolff E, Albert M, Alemany O, Arthern R, Bentley C, Blankenship D, Chappellaz J, Creyts T, Dahl-Jensen D, Dinn M, Frezzotti M, Fujita S, Gallee H, Hindmarsh R, Hudspeth D, Jugie G, Kawamura K, Lipenkov V, Miller H, Mulvaney R, Parrenin F, Pattyn F, Ritz C, Schwander J, Steinhage D, Ommen Tv & Wilhelms F

> Sea ice dynamics influence halogen deposition to Svalbard [p.1645]
Spolaor A, Gabrieli J, Martma T, Kohler J, Björkman MB, Isaksson E, Varin C, Vallelonga P, Plane JMC & Barbante C

> Biological proxies recorded in a Belukha ice core, Russian Altai [p.2399]
Papina T, Blyakharchuk T, Eichler A, Malygina N, Mitrofanova E & Schwikowski M

> Net accumulation rates derived from ice core stable isotope records of Pío XI glacier, Southern Patagonia Icefield [p.1635]
Schwikowski M, Schläppi M, Santibañez P, Rivera A & Casassa G

> Using ice-flow models to evaluate potential sites of million year-old ice in Antarctica [p.2335]
Van Liefferinge B & Pattyn F

> Causes of Greenland temperature variability over the past 4000 yr: implications for northern hemispheric temperature changes [p.2299]
Kobashi T, Goto-Azuma K, Box JE, Gao C-C & Nakaegawa T

> Why could ice ages be unpredictable? [p.2253]
Crucifix M

> High-resolution provenance of desert dust deposited on Mt. Elbrus, Caucasus in 2009–2012 using snow pit and firn core records [p.1481]
Kutuzov S, Shahgedanova M, Mikhalenko V, Ginot P, Lavrentiev I & Kemp S

> Water-soluble organic carbon in snow and ice deposited at Alpine, Greenland, and Antarctic sites: a critical review of available data and their atmospheric relevance [p.2195]
Legrand M, Preunkert S, Jourdain B, Guilhermet J, Fa{ï}n X, Alekhina I & Petit J

> Towards a quasi-complete reconstruction of past atmospheric aerosol load and composition (organic and inorganic) over Europe since 1920 inferred from Alpine ice cores [p.1403]
Preunkert S & Legrand M

> Greenland ice core evidence of the 79 AD Vesuvius eruption [p.1221]
Barbante C, Kehrwald NM, Marianelli P, Vinther BM, Steffensen JP, Cozzi G, Hammer CU, Clausen HB & Siggaard-Andersen M-L

> Historical and idealized climate model experiments: an intercomparison of Earth system models of intermediate complexity [p.1111]
Eby M, Weaver AJ, Alexander K, Zickfeld K, Abe-Ouchi A, Cimatoribus AA, Crespin E, Drijfhout SS, Edwards NR, Eliseev AV, Feulner G, Fichefet T, Forest CE, Goosse H, Holden PB, Joos F, Kawamiya M, Kicklighter D, Kienert H, Matsumoto K, Mokhov II, Monier E, Olsen SM, Pedersen JOP, Perrette M, Philippon-Berthier G, Ridgwell A, Schlosser A, Deimling TSv, Shaffer G, Smith RS, Spahni R, Sokolov AP, Steinacher M, Tachiiri K, Tokos K, Yoshimori M, Zeng N & Zhao F

> Iron fluxes to Talos Dome, Antarctica, over the past 200 kyr [p.597]
Vallelonga P, Barbante C, Cozzi G, Gabrieli J, Schüpbach S, Spolaor A & Turetta C

> On the origin of multidecadal to centennial Greenland temperature anomalies over the past 800 yr [p.583]
Kobashi T, Shindell DT, Kodera K, Box JE, Nakaegawa T & Kawamura K

> Greenland ice sheet contribution to sea level rise during the last interglacial period: a modelling study driven and constrained by ice core data [p.353]
Quiquet A, Ritz C, Punge HJ & Salas y Mélia D

Special issue containing papers that were presented at the PAGES supported International Workshop on the Indian Monsoon and Climate Variability During the Holocene organized by the Geological Society of India and held in Bangalore, India from 17-18 May 2004.

> Foreword [p.341]
Radhakrishna BP

> Indian Monsoon and Climate Variability during the Holocene: An Introduction [p.343]
Kelkar RR

> Annual to Millennial Monsoonal Cyclicity Recorded in Holocene Varved Sediments from the NE Arabian Sea [p.353]
von Rad U, Lückge A, Berger WH & Doose-Rolinski H

> Millennial Scale Variations in Productivity and OMZ Intensity in the Eastern Arabian Sea [p.369]
Singh AD, Kroon D & Ganeshram RS

> Link between Western Arabian Sea Surface Temperature and Summer Monsoon Strength and High-Latitude Abrupt Climate Events [p.379]
Naidu PD

> Deep-Sea Paleoceanographic and Surface Productivity Changes in the Northwestern Arabian Sea Driven by the Indian Southwest Monsoon during the last Millennium [p.387]
Das M, Gupta AK & Anderson DM

> Coral Records from the Northern Indian Ocean: Understanding the Monsoon Variability [p.395]
Chakraborty S

> Globigerinoides Ruber - A Reliable Proxy for Late Quaternary Climatic Changes in the SE Bay of Bengal [p.407]
Raghav S & Malmgren BA

> Seawater Neodymium Isotopic Composition in the Northeastern Indian Ocean during the LGM to Holocene: Response to Glacial and Monsoonal Weathering in Himalaya-Tibet [p.425]
Padmakumari VM, Ahmad SM, Dayal AM, Soundar Rajan R & Gopalan K

> An overview of Holocene South Asian Monsoon Records - Monsoon Domains and Regional Contrasts [p.433]
Staubwasser M

> A Multi-Decadal Rock Magnetic Record of Monsoonal Variations during the Past 3,700 Years from a Tropical Indian Tank [p.447]
Shankar R, Prabhu CN, Warrier AK, Vijaya Kumar GT & Sekar B

> Stable Oxygen and Carbon Isotope Variations as Monsoon Proxies: A Comparative Study of Speleothems from Four Different Locations in India [p.461]
Yadava MG & Ramesh R

> An Extraordinary Period of Low-Magnitude Floods Coinciding with the Little Lice Age: Palaeoflood Evidence Fom Central and Western India [p.477]
Kale VS & Baker VR

> Late Holocene Variations in Monsoon Intensity in the Tibetan- Himalayan Region - Evidence from Tree Rings [p.485]
Bräuning A & Griebinger J

> A Century-Scale Pollen Record of Vegetation and Climate History during the Past 3500 Years in the Pinder Valley, Kumaon Higher Himalaya, India [p.495]
Phadtare NR & Pant RK

> Temporal and Spatial Variations of Late Pleistocene-Holocene Climate of the Western Himalaya Based on Pollen Records and their Implications to Monsoon Dynamics [p.507]
Bhattacharyya A, Singh Ranhotra P & Shah SK

> Late Holocene Climatic Change: Archaeological Evidence from the Purna Basin, Maharashtra [p.517]
Deotare BC

> Holocene Precipitation and Theories of Monsoon [p.527]
Deotare BC

> Temporal Variability of the South Asian Monsoon through the Late Quaternary: Results from AGCM and AOGCM Simulations [p.533]
Bush ABG

> Description of Rainfall Variability in Brhat-Samhita of Varaha-Mihira [p.545]
Iyengar RN

> Rainfall Variability and its Impact on Sediment Discharge from the Rivers of Kerala Region, Southwestern India [p.549]
Narayana AC

This special issue provides a cross-section of the research presented at the 2nd Young Scientists Meeting of the Past Global Changes (PAGES) project, held on 11–12 February 2013 in Goa, India. All first authors are early-career researchers who have attended the meeting. Thematically the papers lie within the scientific scope of PAGES, i.e. they address the processes of past climatic and environmental change, as well as the methodologies required to study them.

> Uncertainties in the modelled CO2 threshold for Antarctic glaciation [p.451]
Gasson E, Lunt DJ, DeConto R, Goldner A, Heinemann M, Huber M, LeGrande AN, Pollard D, Sagoo N, Siddall M, Winguth A & Valdes PJ

> Investigating vegetation–climate feedbacks during the early Eocene [p.419]
Loptson CA, Lunt DJ & Francis JE

> Similarity estimators for irregular and age-uncertain time series [p.107]
Rehfeld K & Kurths J

> Sediment transport processes across the Tibetan Plateau inferred from robust grain-size end members in lake sediments [p.91]
Dietze E, Maussion F, Ahlborn M, Diekmann B, Hartmann K, Henkel K, Kasper T, Lockot G, Opitz S & Haberzettl T

> Expressions of climate perturbations in western Ugandan crater lake sediment records during the last 1000 years [p.1581]
Mills K, Ryves DB, Anderson NJ, Bryant CL & Tyler JJ

> Testing long-term summer temperature reconstruction based on maximum density chronologies obtained by reanalysis of tree-ring data sets from northernmost Sweden and Finland [p.1473]
Matskovsky VV & Helama S

> Treeline dynamics with climate change at the central Nepal Himalaya [p.1277]
Gaire NP, Koirala M, Bhuju DR & Borgaonkar HP

> Reexamining the barrier effect of the Tibetan Plateau on the South Asian summer monsoon [p.1269]
Chen G-S, Liu Z & Kutzbach JE

> Seasonal changes in glacial polynya activity inferred from Weddell Sea varves [p.1239]
Sprenk D, Weber ME, Kuhn G, Wennrich V, Hartmann T & Seelos K

> Environmental and climatic changes in central Chilean Patagonia since the Late Glacial (Mallín El Embudo, 44° S) [p.1063]
de Porras ME, Maldonado A, Quintana FA, Martel-Cea A, Reyes O & Méndez C

> Orbital- and millennial-scale environmental changes between 64 and 20 ka BP recorded in Black Sea sediments [p.939]
Shumilovskikh LS, Fleitmann D, Nowaczyk NR, Behling H, Marret F, Wegwerth A & Arz HW

> Blue intensity and density from northern Fennoscandian tree rings, exploring the potential to improve summer temperature reconstructions with earlywood information [p.877]
Björklund JA, Gunnarson BE, Seftigen K, Esper J, & Linderholm HW

> Late Glacial–Holocene climatic transition record at the Argentinian Andean piedmont between 33 and 34° S [p.863]
Mehl AE & Zárate MA

> Hydrographic changes in the Agulhas Recirculation Region during the late Quaternary [p.745]
Naik DK, Saraswat R, Khare N, Pandey AC, and Nigam R

This synthesis collection of 6 papers is a contribution to the Aus2k Working Group.

> Broadening the Spatial Applicability of Paleoclimate Information—A Case Study for the Murray–Darling Basin, Australia [p.2477]
Ho M, Verdon-Kidd DC, Kiem AS & Drysdale RN

> Nonstationary Australasian Teleconnections and Implications for Paleoclimate Reconstructions [p.8827]
Gallant AJE, Phipps SJ, Karoly DJ, Mullan AB & Lorrey AM

> Paleoclimate Data–Model Comparison and the Role of Climate Forcings over the Past 1500 Years [p.6915]
Phipps SJ, McGregor HV, Gergis J, Gallant AJE, Neukom R, Stevenson S, Ackerley D, Brown J, Fischer MJ & van Ommen TD

> A Millennial Proxy Record of ENSO and Eastern Australian Rainfall from the Law Dome Ice Core, East Antarctica [p.710]
Vance TR, van Ommen TD, Curran MAJ, Plummer CT & Moy AD

> A Historical Perspective on Southeastern Australian Rainfall since 1865 Using the Instrumental Record [p.1121]
Timbal B & Fawcett R

> A Southwest Pacific Tropical Cyclone Climatology and Linkages to the El Niño–Southern Oscillation [p.3]
Diamond HJ, Lorrey AM & Renwick JA

The special issue, comprising 15 articles, is a contribution to the International Polar Year and the PAGES Arctic2k Working Group.

> Summer temperatures during the Medieval Warm Period and Little Ice Age inferred from varved proglacial lake sediments in southern Alaska [p.117]
Loso MG

> Five thousand years of sediment transfer in a high arctic watershed recorded in annually laminated sediments from Lower Murray Lake, Ellesmere Island, Nunavut, Canada [p.77]
Cook TL, Bradley RS, Stoner JS & Francus P

> Quantitative summer-temperature reconstructions for the last 2000 years based on pollen-stratigraphical data from northern Fennoscandia [p.43]
Bjune AE, Seppä H, Birks HJB

> An overview of late Holocene climate and environmental change inferred from Arctic lake sediment [p.1]
Kaufman DS

> Climate of the Little Ice Age and the past 2000 years in northeast Iceland inferred from chironomids and other lake sediment proxies [p.7]
Axford Y, Geirsdóttir A, Miller GH & Langdon PG

> A 2000 year varve-based climate record from the central Brooks Range, Alaska [p.25]
Bird BW, Abbott MB, Finney BP & Kutchko B

> A 2000 year record of climatic change at Ongoke Lake, southwest Alaska [p.57]
Chipman ML, Clarke GH, Clegg BF, Gregory-Eaves I & Hu FS

> A 2000 year record of climate variations reconstructed from Haukadalsvatn, West Iceland [p.95]
Geirsdóttir A, Miller GH, Thordarson T & Ólafsdóttir KB

> Paleolimnological evidence of the response of the central Canadian treeline zone to radiative forcing and hemispheric patterns of temperature change over the past 2000 years [p.129]
MacDonald GM, Porinchu DF, Rolland N, Kremenetsky KV & Kaufman DS

> Holocene climate and glacier variability at Hallet and Greyling Lakes, Chugach Mountains, south-central Alaska [p.143]
McKay NP & Kaufman DS

> Pollen-based reconstructions of late Holocene climate from the central and western Canadian Arctic [p.161]
Peros MC & Gajewski K

> A 2000 year midge-based paleotemperature reconstruction from the Canadian Arctic archipelago [p.177]
Porinchu DF, MacDonald GM & Rolland N

> Late Holocene storm-trajectory changes inferred from the oxygen isotope composition of lake diatoms, south Alaska [p.189]
Schiff CJ, Kaufman DS, Wolfe AP, Dodd J & Sharp Z

> Climate of the past millennium inferred from varved proglacial lake sediments on northeast Baffin Island, Arctic Canada [p.209]
Thomas EK & Briner JP

> Sedimentary pellets as an ice-cover proxy in a High Arctic ice-covered lake [p.225]
Tomkins JD, Lamoureux SF, Antoniades D & Vincent WF