Global connections between aeolian dust, climate and ocean biogeochemistry at the present day and at the last glacial maximum

[1]  A. Baker,et al.  Atmospheric and marine controls on aerosol iron solubility in seawater , 2010 .

[2]  P. Boyd,et al.  Aerosol iron deposition to the surface ocean — Modes of iron supply and biological responses , 2010 .

[3]  D. Mackie Comment on ‘Impacts of aeolian dust deposition on phytoplankton dynamics in Queensland coastal waters’ by Shaw et al. (2008) , 2010 .

[4]  J. Perlwitz,et al.  Cloud Cover Increase with Increasing Aerosol Absorptivity: A Counterexample to the Conventional Semidirect Aerosol Effect , 2010 .

[5]  Timo Nousiainen,et al.  Optical modeling of mineral dust particles: A review , 2009 .

[6]  Gunnar Myhre,et al.  Consistency Between Satellite-Derived and Modeled Estimates of the Direct Aerosol Effect , 2009, Science.

[7]  E. Achterberg,et al.  Iron biogeochemistry across marine systems at changing times - conclusions from the workshop held in Gothenburg, Sweden (14-16 May 2008) , 2009 .

[8]  L. Bopp,et al.  Evaluating the importance of atmospheric and sedimentary iron sources to Southern Ocean biogeochemistry , 2009 .

[9]  Andreas Macke,et al.  Meteorological processes forcing Saharan dust emission inferred from MSG-SEVIRI observations of subdaily dust source activation and numerical models , 2009 .

[10]  A. Schroth,et al.  Iron solubility driven by speciation in dust sources to the ocean , 2009 .

[11]  J. Niemi,et al.  Single‐scattering modeling of thin, birefringent mineral‐dust flakes using the discrete‐dipole approximation , 2009 .

[12]  David E. Sugden,et al.  Influence of Patagonian glaciers on Antarctic dust deposition during the last glacial period , 2009 .

[13]  Stephane C. Alfaro,et al.  Size resolved dust emission fluxes measured in Niger during 3 dust storms of the AMMA experiment. , 2009 .

[14]  F. Pereyra,et al.  Magnetismo de rocas en suelos actuales de la Pampa Ondulada, provincia de Buenos Aires, Argentina. Vinculación del clima con el comportamiento magnético , 2009 .

[15]  A. Rosell‐Melé,et al.  Links between iron supply, marine productivity, sea surface temperature, and CO2 over the last 1.1 Ma , 2009 .

[16]  Dickson Cunningham,et al.  Magnetic and geochemical characteristics of Gobi Desert surface sediments: Implications for provenance of the Chinese Loess Plateau , 2009 .

[17]  G. McTainsh,et al.  Impacts of aeolian dust deposition on phytoplankton dynamics in Queensland coastal waters , 2008 .

[18]  E. Williams Comment on “Atmospheric controls on the annual cycle of North African dust” by S. Engelstaedter and R. Washington , 2008 .

[19]  H. Roberts The development and application of luminescence dating to loess deposits: a perspective on the past, present and future , 2008 .

[20]  E. Bettis,et al.  Isotopic evidence for the diversity of late Quaternary loess in Nebraska: Glaciogenic and nonglaciogenic sources , 2008 .

[21]  B. Delmonte,et al.  Defining the geochemical composition of the EPICA Dome C ice core dust during the last glacial‐interglacial cycle , 2008 .

[22]  D. Winker,et al.  A height resolved global view of dust aerosols from the first year CALIPSO lidar measurements , 2008 .

[23]  M. Fleisher,et al.  Modern CaCO3 preservation in equatorial Pacific sediments in the context of late-Pleistocene glacial cycles , 2008 .

[24]  Ursula Röhl,et al.  Paleonutrient and productivity records from the subarctic North Pacific , 2008 .

[25]  K. Arrigo,et al.  Primary production in the Southern Ocean, 1997–2006 , 2008 .

[26]  G. McTainsh,et al.  Sub‐basin scale dust source geomorphology detected using MODIS , 2008 .

[27]  M. Frechen,et al.  Aeolian dust dynamics in central Asia during the Pleistocene: Driven by the long‐term migration, seasonality, and permanency of the Asiatic polar front , 2008 .

[28]  K. Timmermans,et al.  Efficiency of carbon removal per added iron in ocean iron fertilization , 2008 .

[29]  N. Mahowald,et al.  Half a million years of coherent dust flux variations in the tropical Pacific and Antarctica , 2008 .

[30]  C. Zender,et al.  Constraining oceanic dust deposition using surface ocean dissolved Al , 2008 .

[31]  Gi Young Jeong,et al.  Quantitative bulk and single-particle mineralogy of a thick Chinese loess–paleosol section: implications for loess provenance and weathering , 2008 .

[32]  N. Mahowald,et al.  Revisiting atmospheric dust export to the Southern Hemisphere ocean: Biogeochemical implications , 2008 .

[33]  S. Tulaczyk,et al.  Bioavailable iron in the Southern Ocean: the significance of the iceberg conveyor belt , 2008, Geochemical transactions.

[34]  V. Ramaswamy,et al.  Distribution, transport, and deposition of mineral dust in the Southern Ocean and Antarctica: Contribution of major sources , 2008 .

[35]  T. Stocker,et al.  High-resolution carbon dioxide concentration record 650,000–800,000 years before present , 2008, Nature.

[36]  R. M. Owen,et al.  Miocene to recent eolian dust record from the Southwest Pacific Ocean at 40° S latitude , 2008 .

[37]  A. Goudie The History and Nature of Wind Erosion in Deserts , 2008 .

[38]  E. Matsumoto,et al.  Fine aeolian quartz records in Cheju Island, Korea, during the last 6500 years and pathway change of the westerlies over east Asia , 2008 .

[39]  David M. Cwiertny,et al.  Chemistry and photochemistry of mineral dust aerosol. , 2008, Annual review of physical chemistry.

[40]  M. Bigler,et al.  Dust-climate couplings over the past 800,000 years from the EPICA Dome C ice core , 2008, Nature.

[41]  K. Desboeufs,et al.  Mineralogy as a critical factor of dust iron solubility , 2008 .

[42]  B. Delmonte,et al.  Aeolian dust in East Antarctica (EPICA‐Dome C and Vostok): Provenance during glacial ages over the last 800 kyr , 2008 .

[43]  B. Delmonte,et al.  Comment on “Dust provenance in Antarctic ice during glacial periods: From where in southern South America?” by D. M. Gaiero , 2008 .

[44]  S. Doney,et al.  The impact on atmospheric CO 2 of iron fertilization induced changes in the ocean's biological pump , 2008 .

[45]  P. Boyd,et al.  Biogeochemistry of iron in Australian dust: From eolian uplift to marine uptake , 2008 .

[46]  G. Mann,et al.  Contribution of particle formation to global cloud condensation nuclei concentrations , 2008 .

[47]  W. Broecker Excess sediment 230Th: Transport along the sea floor or enhanced water column scavenging? , 2008 .

[48]  Yoram J. Kaufman,et al.  Retrieving global aerosol sources from satellites using inverse modeling , 2008 .

[49]  Atsushi Tani,et al.  Tracing the provenance of fine‐grained dust deposited on the central Chinese Loess Plateau , 2008 .

[50]  D. Gaiero Dust Provenance in Antarctic ice During Glacial Periods: Calibrating the Dust Emission Record of Southern South America. , 2007 .

[51]  T. Plank,et al.  Sources of Fe to the equatorial Pacific Ocean from the Holocene to Miocene , 2007 .

[52]  N. Drake,et al.  Dust-raising in the dustiest place on earth , 2007 .

[53]  R. Röthlisberger,et al.  Erratum to “Reconstruction of millennial changes in dust emission, transport and regional sea ice coverage using the deep EPICA ice cores from the Atlantic and Indian Ocean sector of Antarctica” [Earth Planet. Sci. Lett. 260 (2007) 340–354] , 2007 .

[54]  P. Sedwick,et al.  Impact of anthropogenic combustion emissions on the fractional solubility of aerosol iron: Evidence from the Sargasso Sea , 2007 .

[55]  B. Diekmann Sedimentary patterns in the late Quaternary Southern Ocean , 2007 .

[56]  R. Betts,et al.  Changes in Atmospheric Constituents and in Radiative Forcing. Chapter 2 , 2007 .

[57]  Pinxian Wang,et al.  Western equatorial Pacific productivity and carbonate dissolution over the last 550 kyr: Foraminiferal and nannofossil evidence from ODP Hole 807A , 2007 .

[58]  K. Schepanski,et al.  A new Saharan dust source activation frequency map derived from MSG‐SEVIRI IR‐channels , 2007 .

[59]  B. Maher,et al.  Environmental magnetism and climate change , 2007 .

[60]  Veerabhadran Ramanathan,et al.  Dust plumes over the Pacific, Indian, and Atlantic oceans: Climatology and radiative impact , 2007 .

[61]  R. Röthlisberger,et al.  Reconstruction of millennial changes in dust emission, transport and regional sea ice coverage using the deep EPICA ice cores from the Atlantic and Indian Ocean sector of Antarctica , 2007 .

[62]  A. Schilt,et al.  Orbital and Millennial Antarctic Climate Variability over the Past 800,000 Years , 2007, Science.

[63]  N. Harada,et al.  Ba, Si, U, Al, Sc, La, Th, C and 13C/12C in a sediment core in the western subarctic Pacific as proxies of past biological production , 2007 .

[64]  Johannes J. Feddema,et al.  Global trends in visibility: Implications for dust sources , 2007 .

[65]  O. Boucher,et al.  Source evaluation of aerosols measured during the Indian Ocean Experiment using combined chemical transport and back trajectory modeling , 2007 .

[66]  Scott C. Doney,et al.  Iron availability limits the ocean nitrogen inventory stabilizing feedbacks between marine denitrification and nitrogen fixation , 2007 .

[67]  G. Bigg,et al.  Ocean circulation at the Last Glacial Maximum: A combined modeling and magnetic proxy‐based study , 2007 .

[68]  Henk Eskes,et al.  Intercomparison of SCIAMACHY nitrogen dioxide observations, in situ measurements and air quality modeling results over Western Europe , 2007 .

[69]  S. K. Satheesh,et al.  Dust absorption over the “Great Indian Desert” inferred using ground‐based and satellite remote sensing , 2007 .

[70]  J. Lynch‐Stieglitz,et al.  Deglacial changes in dust flux in the eastern equatorial Pacific , 2007 .

[71]  N. Mahowald,et al.  Combustion iron distribution and deposition , 2007 .

[72]  John Leys,et al.  Numerical simulation of the October 2002 dust event in Australia , 2007 .

[73]  B. Quéguiner,et al.  Effect of natural iron fertilization on carbon sequestration in the Southern Ocean , 2007, Nature.

[74]  J. K. Moore,et al.  Sedimentary and mineral dust sources of dissolved iron to the World Ocean , 2007 .

[75]  F. Brunet,et al.  A uniform isotopic and chemical signature of dust exported from Patagonia: Rock sources and occurrence in southern environments , 2007 .

[76]  R. Röthlisberger,et al.  Glacial/interglacial changes in mineral dust and sea‐salt records in polar ice cores: Sources, transport, and deposition , 2007 .

[77]  A. Mix,et al.  Reply to comment by R. Francois et al. on “Do geochemical estimates of sediment focusing pass the sediment test in the equatorial Pacific?”: Further explorations of 230Th normalization , 2007 .

[78]  D. Rea,et al.  Resolving eolian, volcanogenic, and authigenic components in pelagic sediment from the Pacific Ocean , 2007 .

[79]  Richard Washington,et al.  Atmospheric controls on the annual cycle of North African dust , 2007 .

[80]  Tao Wang,et al.  Dust emission from desertified lands in the Heihe River Basin, Northwest China , 2007 .

[81]  E. Boyle,et al.  Mesoscale Iron Enrichment Experiments 1993-2005: Synthesis and Future Directions , 2007, Science.

[82]  Ariel F. Stein,et al.  Does dust from Patagonia reach the sub‐Antarctic Atlantic Ocean? , 2007 .

[83]  M. Fleisher,et al.  Diatom productivity in the equatorial Pacific Ocean from the last glacial period to the present: A test of the silicic acid leakage hypothesis , 2006 .

[84]  W. Balsam,et al.  The importance of both geological and pedological processes in control of grain size and sedimentation rates in Peoria Loess , 2006 .

[85]  Zhibao Dong,et al.  Control of dust emissions by geomorphic conditions, wind environments and land use in northern China: An examination based on dust storm frequency from 1960 to 2003 , 2006 .

[86]  Irina N. Sokolik,et al.  Characterization of iron oxides in mineral dust aerosols: Implications for light absorption , 2006 .

[87]  Richard Washington,et al.  North African dust emissions and transport , 2006 .

[88]  Ka-Ming Lau,et al.  Observational relationships between aerosol and Asian monsoon rainfall, and circulation , 2006 .

[89]  D. Fillmore,et al.  Climate response and radiative forcing from mineral aerosols during the last glacial maximum, pre‐industrial, current and doubled‐carbon dioxide climates , 2006 .

[90]  Y. Kaufman,et al.  The Bodélé depression: a single spot in the Sahara that provides most of the mineral dust to the Amazon forest , 2006 .

[91]  X. Querol,et al.  Geochemical variations in aeolian mineral particles from the Sahara-Sahel Dust Corridor. , 2006, Chemosphere.

[92]  F. Grousset,et al.  Eastern Australia: A possible source of dust in East Antarctica interglacial ice , 2006 .

[93]  Y. Wang,et al.  The contribution from distant dust sources to the atmospheric particulate matter loadings at XiAn, China during spring. , 2006, The Science of the total environment.

[94]  Subir K. Banerjee,et al.  A multi-proxy study of Argentina loess: Marine oxygen isotope stage 4 and 5 environmental record from pedogenic hematite , 2006 .

[95]  Y. Balkanski,et al.  Reevaluation of Mineral aerosol radiative forcings suggests a better agreement with satellite and AERONET data , 2006 .

[96]  T. Jickells,et al.  Mineral particle size as a control on aerosol iron solubility , 2006 .

[97]  R. M. Owen,et al.  Radiogenic isotopic mapping of late Cenozoic eolian and hemipelagic sediment distribution in the east-central Pacific , 2006 .

[98]  Tommy D. Dickey,et al.  Quick transport of primary produced organic carbon to the ocean interior , 2006 .

[99]  Masaru Chiba,et al.  A numerical study of the contributions of dust source regions to the global dust budget , 2006 .

[100]  A. Johansen,et al.  Photoreductive dissolution of ferrihydrite by methanesulfinic acid: Evidence of a direct link between dimethylsulfide and iron‐bioavailability , 2006 .

[101]  Nick Middleton,et al.  Desert Dust in the Global System , 2006 .

[102]  O. Boucher,et al.  Ice-free glacial northern Asia due to dust deposition on snow , 2006 .

[103]  J. Toggweiler,et al.  Midlatitude westerlies, atmospheric CO2, and climate change during the ice ages , 2006 .

[104]  N. Mahowald,et al.  Change in atmospheric mineral aerosols in response to climate: Last glacial period, preindustrial, modern, and doubled carbon dioxide climates , 2006 .

[105]  C. Flamant,et al.  Links between topography, wind, deflation, lakes and dust: The case of the Bodélé Depression, Chad , 2006 .

[106]  R. Röthlisberger,et al.  Aerosol deposited in East Antarctica over the last glacial cycle: Detailed apportionment of continental and sea-salt contributions , 2006 .

[107]  A. Baker,et al.  Trends in aerosol nutrient solubility along a west–east transect of the Saharan dust plume , 2006 .

[108]  B. Maher,et al.  A high-resolution record of Holocene rainfall variations from the western Chinese Loess Plateau: antiphase behaviour of the African/Indian and East Asian summer monsoons , 2006 .

[109]  A. Schellenberger,et al.  Pedostratigraphy and pedological and geochemical characterization of Las Carreras loess–paleosol sequence, Valle de Tafí, NW-Argentina , 2006 .

[110]  D. Koch,et al.  Constraining the magnitude of the global dust cycle by minimizing the difference between a model and observations , 2006 .

[111]  C. Prigent,et al.  Mineral dust aerosols in the NASA Goddard Institute for Space Sciences ModelE atmospheric general circulation model , 2006 .

[112]  C. Barbante,et al.  Southern Ocean sea-ice extent, productivity and iron flux over the past eight glacial cycles , 2006, Nature.

[113]  M. Fleisher,et al.  Glacial–interglacial variability in the delivery of dust to the central equatorial Pacific Ocean , 2006 .

[114]  K. Linge,et al.  Trends in the solubility of iron, aluminium, manganese and phosphorus in aerosol collected over the Atlantic Ocean , 2006 .

[115]  K. Lindsay,et al.  Nitrogen fixation amplifies the ocean biogeochemical response to decadal timescale variations in mineral dust deposition , 2006 .

[116]  N. Mahowald,et al.  Atmospheric global dust cycle and iron inputs to the ocean , 2005 .

[117]  Simon J. Ussher,et al.  Iron in the Sargasso Sea (Bermuda Atlantic Time‐series Study region) during summer: Eolian imprint, spatiotemporal variability, and ecological implications , 2005 .

[118]  B. Delmonte,et al.  Characteristics and sources of tephra layers in the EPICA-Dome C ice record (East Antarctica): Implications for past atmospheric circulation and ice core stratigraphic correlations , 2005 .

[119]  H. McGowan,et al.  Estimates of Australian dust flux into New Zealand: Quantifying the eastern Australian dust plume pathway using trace element calibrated 210Pb as a monitor , 2005 .

[120]  U. Ruth Mineral dust records from Greenland ice cores , 2005 .

[121]  N. Mahowald,et al.  Simulation of absorbing aerosol indices for African dust , 2005 .

[122]  Axel Lauer,et al.  © Author(s) 2006. This work is licensed under a Creative Commons License. Atmospheric Chemistry and Physics Analysis and quantification of the diversities of aerosol life cycles , 2022 .

[123]  Ulf Riebesell,et al.  Synthesis of iron fertilization experiments: From the iron age in the age of enlightenment , 2005 .

[124]  C. Park,et al.  Remote sensing and statistical analysis of Asian dust measured by 532/1064 nm Lidar during 2002-2005 , 2005, 2005 Pacific Rim Conference on Lasers & Electro-Optics.

[125]  I. Jefferson,et al.  The formation of silt material for terrestrial sediments: particularly loess and dust , 2005 .

[126]  G. McTainsh,et al.  High resolution provenancing of long travelled dust deposited on the Southern Alps, New Zealand , 2005 .

[127]  R. Ganeshram,et al.  Variations in tropical convection as an amplifier of global climate change at the millennial scale [rapid communication] , 2005 .

[128]  H. McGowan,et al.  Provenance of long‐travelled dust determined with ultra‐trace‐element composition: a pilot study with samples from New Zealand glaciers , 2005 .

[129]  G. Haug,et al.  Glacial/Interglacial Changes in Subarctic North Pacific Stratification , 2005, Science.

[130]  F. Lehmkuhl,et al.  Late Quaternary glaciation of Tibet and the bordering mountains: a review , 2005 .

[131]  Corinne Le Quéré,et al.  Role of Marine Biology in Glacial-Interglacial CO2 Cycles , 2005, Science.

[132]  N. Mahowald,et al.  Global Iron Connections Between Desert Dust, Ocean Biogeochemistry, and Climate , 2005, Science.

[133]  Nicolas Clerbaux,et al.  Can desert dust explain the outgoing longwave radiation anomaly over the Sahara during July 2003 , 2005 .

[134]  M. Raymo,et al.  A Pliocene‐Pleistocene stack of 57 globally distributed benthic δ18O records , 2005 .

[135]  Y. Chan,et al.  The 23rd October, 2002 dust storm in eastern Australia: characteristics and meteorological conditions. , 2005 .

[136]  P. Boyd,et al.  Simulating the cloud processing of iron in Australian dust: pH and dust concentration , 2005 .

[137]  R. Schneider,et al.  Provenance of present‐day eolian dust collected off NW Africa , 2005 .

[138]  T. Stocker,et al.  Supporting evidence from the EPICA Dronning Maud Land ice core for atmospheric CO2 changes during the past millennium , 2005 .

[139]  Keith Lindsay,et al.  Upper ocean ecosystem dynamics and iron cycling in a global three‐dimensional model , 2004 .

[140]  N. Mahowald,et al.  Comment on “Relative importance of climate and land use in determining present and future global soil dust emission” by I. Tegen et al. , 2004 .

[141]  A. Mix,et al.  Climatically driven changes in oceanic processes throughout the equatorial Pacific , 2004 .

[142]  C. Zender,et al.  Quantifying mineral dust mass budgets:Terminology, constraints, and current estimates , 2004 .

[143]  F. Lamy,et al.  Climate variability at the southern boundaries of the Namib (southwestern Africa) and Atacama (northern Chile) coastal deserts during the last 120,000 yr , 2004, Quaternary Research.

[144]  Zhibao Dong,et al.  Modern dust storms in China: an overview , 2004 .

[145]  B. Anderson,et al.  A comparison of similar aerosol measurements made on the NASA P3-B, DC-8, and NSF C-130 aircraft during TRACE-P and ACE-Asia , 2004 .

[146]  Yasunobu Iwasaka,et al.  Size change of Asian dust particles caused by sea salt interaction: Measurements in southwestern Japan , 2004 .

[147]  F. Joos,et al.  Ice core evidence for the extent of past atmospheric CO2 change due to iron fertilisation , 2004 .

[148]  Carlo Barbante,et al.  Eight glacial cycles from an Antarctic ice core , 2004, Nature.

[149]  F. Grousset,et al.  Comparing the Epica and Vostok dust records during the last 220,000 years: stratigraphical correlation and provenance in glacial periods , 2004 .

[150]  P. Loubere,et al.  Export fluxes of calcite in the eastern equatorial Pacific from the Last Glacial Maximum to present , 2004 .

[151]  Clive Oppenheimer,et al.  The size and frequency of the largest explosive eruptions on Earth , 2004 .

[152]  Paola Formenti,et al.  Iron oxides and light absorption by pure desert dust: An experimental study , 2004 .

[153]  A. Grini,et al.  Roles of saltation, sandblasting, and wind speed variability on mineral dust aerosol size distribution during the Puerto Rican Dust Experiment (PRIDE) , 2004 .

[154]  Taro Takahashi,et al.  Southern Ocean Iron Enrichment Experiment: Carbon Cycling in High- and Low-Si Waters , 2004, Science.

[155]  G. Duller,et al.  Standardised growth curves for optical dating of sediment using multiple-grain aliquots , 2004 .

[156]  I. Tegen,et al.  Relative importance of climate and land use in determining present and future global soil dust emission , 2004 .

[157]  J. Probst,et al.  The signature of river- and wind-borne materials exported from Patagonia to the southern latitudes: a view from REEs and implications for paleoclimatic interpretations , 2004 .

[158]  P. Boyd,et al.  Episodic enhancement of phytoplankton stocks in New Zealand subantarctic waters: Contribution of atmospheric and oceanic iron supply , 2004 .

[159]  M. Frank,et al.  230Th-normalization: an essential tool for interpreting sedimentary fluxes during the late Quaternary , 2004 .

[160]  J. Perlwitz,et al.  Surface radiative forcing by soil dust aerosols and the hydrologic cycle , 2004 .

[161]  Mian Chin,et al.  Long-term simulation of global dust distribution with the GOCART model: correlation with North Atlantic Oscillation , 2004, Environ. Model. Softw..

[162]  N. Mahowald,et al.  Sensitivity of TOMS aerosol index to boundary layer height: Implications for detection of mineral aerosol sources , 2004 .

[163]  Huifang Xu,et al.  High resolution hematite/goethite records from Chinese loess sequences for the last glacial‐interglacial cycle: Rapid climatic response of the East Asian Monsoon to the tropical Pacific , 2004 .

[164]  I. McKendry,et al.  Modeled size‐segregated wet and dry deposition budgets of soil dust aerosol during ACE‐Asia 2001: Implications for trans‐Pacific transport , 2003 .

[165]  B. Maher,et al.  Magnetic mineralogy of soils across the Russian Steppe: climatic dependence of pedogenic magnetite formation. , 2003 .

[166]  J. D. Hays,et al.  The Sea of Okhotsk: A Window on the Ice Age Ocean , 2003 .

[167]  K. Timmermans,et al.  THE ROLE OF THE REACTIVITY AND CONTENT OF IRON OF AEROSOL DUST ON GROWTH RATES OF TWO ANTARCTIC DIATOM SPECIES 1 , 2003 .

[168]  Joanna E. Bullard,et al.  Aeolian-fluvial interactions in dryland environments: examples, concepts and Australia case study , 2003 .

[169]  Peter J. Lamb,et al.  African Droughts and Dust Transport to the Caribbean: Climate Change Implications , 2003, Science.

[170]  U. Schwertmann,et al.  The Iron Oxides: Structure, Properties, Reactions, Occurrences and Uses , 2003 .

[171]  Jeffrey S. Reid,et al.  Mineral dust aerosol size distribution change during atmospheric transport , 2003 .

[172]  Alexander Smirnov,et al.  Comparison of size and morphological measurements of coarse mode dust particles from Africa , 2003 .

[173]  J. Probst,et al.  Iron and other transition metals in Patagonian riverborne and windborne materials: geochemical control and transport to the southern South Atlantic Ocean , 2003 .

[174]  P. Worsfold,et al.  Atmospheric iron deposition and sea-surface dissolved iron concentrations in the eastern Atlantic Ocean , 2003 .

[175]  M. Minagawa,et al.  Sedimentary record of marine and terrigenous organic matter delivery to the Shatsky Rise, western North Pacific, over the last 130 kyr , 2003 .

[176]  Sandy P. Harrison,et al.  Glacial-interglacial changes in dust deposition on the Chinese Loess Plateau , 2003 .

[177]  A. Hammond,et al.  Dust accumulation in the New Zealand region since the last glacial maximum. , 2003 .

[178]  G. McTainsh,et al.  Australian dust deposits: modern processes and the Quaternary record , 2003 .

[179]  M. Zárate Loess of southern South America , 2003 .

[180]  N. Mahowald,et al.  Sensitivity study of meteorological parameters on mineral aerosol mobilization, transport, and distribution , 2003 .

[181]  C. Zender,et al.  Mineral Dust Entrainment and Deposition (DEAD) model: Description and 1990s dust climatology , 2003 .

[182]  Stéphane Blain,et al.  An ecosystem model of the global ocean including Fe, Si, P colimitations , 2003 .

[183]  Paul J. DeMott,et al.  Saharan dust storms and indirect aerosol effects on clouds: CRYSTAL‐FACE results , 2003 .

[184]  R. Washington,et al.  Dust-Storm Source Areas Determined by the Total Ozone Monitoring Spectrometer and Surface Observations , 2003 .

[185]  Corinne Le Quéré,et al.  Dust impact on marine biota and atmospheric CO2 in glacial periods , 2003 .

[186]  J. Nishioka,et al.  A Mesoscale Iron Enrichment in the Western Subarctic Pacific Induces a Large Centric Diatom Bloom , 2003, Science.

[187]  A. Wintle,et al.  Unprecedented last-glacial mass accumulation rates determined by luminescence dating of loess from western Nebraska , 2003, Quaternary Research.

[188]  J. Reyss,et al.  The 231Pa/230Th ratio as a proxy for past changes in opal fluxes in the Indian sector of the Southern Ocean , 2003 .

[189]  Zifa Wang,et al.  Atmospheric input of mineral dust to the western North Pacific region based on direct measurements and a regional chemical transport model , 2003 .

[190]  P. Kubik,et al.  Accumulation of biogenic and lithogenic material in the Pacific sector of the Southern Ocean during the past 40,000 years , 2003 .

[191]  J. Steffensen,et al.  Continuous record of microparticle concentration and size distribution in the central Greenland NGRIP ice core during the last glacial period , 2003 .

[192]  Francis E. Grousset,et al.  Two distinct seasonal Asian source regions for mineral dust deposited in Greenland (NorthGRIP) , 2003 .

[193]  C. Genthon,et al.  Tropospheric transport of continental tracers towards Antarctica under varying climatic conditions , 2003 .

[194]  I. Prentice,et al.  Seasonal and interannual variability of the mineral dust cycle under present and glacial climate conditions , 2002 .

[195]  Thomas A. Cahill,et al.  Asian aerosols in North America: Frequency and concentration of fine dust , 2002 .

[196]  A. Ridgwell Dust in the Earth system: the biogeochemical linking of land, air and sea , 2002, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[197]  Andrew J. Watson,et al.  Feedback between aeolian dust, climate, and atmospheric CO2 in glacial time , 2002 .

[198]  M. Heimann,et al.  Impact of vegetation and preferential source areas on global dust aerosol: Results from a model study , 2002 .

[199]  P. Valdes,et al.  Dust deposition and provenance at the Last Glacial Maximum and present day , 2002 .

[200]  Russ E. Davis,et al.  Robotic Observations of Dust Storm Enhancement of Carbon Biomass in the North Pacific , 2002, Science.

[201]  R. Röthlisberger,et al.  Dust and sea salt variability in central East Antarctica (Dome C) over the last 45 kyrs and its implications for southern high‐latitude climate , 2002 .

[202]  X. Y. Zhang,et al.  Atmospheric dust loadings and their relationship to rapid oscillations of the Asian winter monsoon climate: two 250-kyr loess records , 2002 .

[203]  O. Boucher,et al.  A satellite view of aerosols in the climate system , 2002, Nature.

[204]  G. Berger,et al.  Luminescence chronology of loess-paleosol sequences from southern South Island, New Zealand , 2002 .

[205]  J. Haigh Radiative forcing of climate change , 2002 .

[206]  J. Luck,et al.  Abrupt millennial climatic changes from Nussloch (Germany) Upper Weichselian eolian records during the Last Glaciation. , 2002 .

[207]  G. Kuhn,et al.  Sedimentary record of the mid-Pleistocene climate transition in the southeastern South Atlantic (ODP Site 1090) , 2002 .

[208]  G. A. Wang,et al.  The loess record in southern Tajikistan and correlation with Chinese loess , 2002 .

[209]  Roger Allan Cropp,et al.  Coupling between cycles of phytoplankton biomass and aerosol optical depth as derived from SeaWiFS time series in the Subantarctic Southern Ocean , 2002 .

[210]  O. Torres,et al.  ENVIRONMENTAL CHARACTERIZATION OF GLOBAL SOURCES OF ATMOSPHERIC SOIL DUST IDENTIFIED WITH THE NIMBUS 7 TOTAL OZONE MAPPING SPECTROMETER (TOMS) ABSORBING AEROSOL PRODUCT , 2002 .

[211]  G. Filippelli,et al.  Terrigenous input and paleoproductivity in the Southern Ocean , 2001 .

[212]  M. Fleisher,et al.  Evidence from authigenic uranium for increased productivity of the glacial subantarctic ocean , 2001 .

[213]  A. Butler,et al.  Photochemical cycling of iron in the surface ocean mediated by microbial iron(iii)-binding ligands , 2001, Nature.

[214]  Y. Shao A model for mineral dust emission , 2001 .

[215]  M. Chin,et al.  Sources and distributions of dust aerosols simulated with the GOCART model , 2001 .

[216]  Teh-Quei Lee,et al.  Mineral magnetic study of the Taklimakan desert sands and its relevance to the Chinese loess , 2001 .

[217]  N. Middleton,et al.  Long-range transport of ‘giant’ aeolian quartz grains: linkage with discrete sedimentary sources and implications for protective particle transfer , 2001 .

[218]  Sandy P. Harrison,et al.  DIRTMAP: the geological record of dust , 2001 .

[219]  Richard Arimoto,et al.  Eolian dust and climate: relationships to sources, tropospheric chemistry, transport and deposition , 2001 .

[220]  B. Maher,et al.  Evidence against dust-mediated control of glacial–interglacial changes in atmospheric CO2 , 2001, Nature.

[221]  F. Lehmkuhl,et al.  Interpreting temporal patterns in the late Quaternary dust flux from Asia to the North Pacific , 2001 .

[222]  G. Kuhn,et al.  Provenance and transport of terrigenous sediment in the south Atlantic Ocean and their relations to glacial and interglacial cycles: Nd and Sr isotopic evidence , 2000 .

[223]  A. Watson,et al.  Effect of iron supply on Southern Ocean CO2 uptake and implications for glacial atmospheric CO2 , 2000, Nature.

[224]  H. Kawahata,et al.  Fluctuations of eolian flux and ocean productivity in the mid-latitude north Pacific during the last 200 kyr , 2000 .

[225]  T. Dowling,et al.  Modelling current parna distribution in a local area , 2000 .

[226]  M. Iriondo Patagonian dust in Antarctica , 2000 .

[227]  G. McTainsh,et al.  Identifying regional dust transport pathways: ­application of kinematic trajectory modelling to a trans-Tasman case , 2000 .

[228]  Tyson,et al.  Aeolian transport from southern Africa and iron fertilization of marine biota in the South Indian Ocean , 2000 .

[229]  K. Johnson,et al.  A model of the iron cycle in the ocean , 2000 .

[230]  S. Doney,et al.  Iron supply and demand in the upper ocean , 2000 .

[231]  F. Grousset,et al.  Characterization of late glacial continental dust in the Greenland Ice Core Project ice core , 2000 .

[232]  P. Tréguer,et al.  Interannual variability of Si and N cycles at the time-series station KERFIX between 1990 and 1995 – a 1-D modelling study , 2000 .

[233]  G. McTainsh,et al.  Last Glacial Maximum to Early Holocene Wind Strength in the Mid-latitudes of the Southern Hemisphere from Aeolian Dust in the Tasman Sea , 1999, Quaternary Research.

[234]  S. Philander,et al.  The climate of the Last Glacial Maximum: Results from a coupled atmosphere-ocean general circulation model , 1999 .

[235]  Y. Balkanski,et al.  Modeling the mineralogy of atmospheric dust sources , 1999 .

[236]  A. Watson,et al.  Modeling the geochemical cycle of iron in the oceans and its impact on atmospheric CO2 concentrations , 1999 .

[237]  Sandy P. Harrison,et al.  Dust sources and deposition during the last glacial maximum and current climate: A comparison of model results with paleodata from ice cores and marine sediments , 1999 .

[238]  J. Prospero Long‐term measurements of the transport of African mineral dust to the southeastern United States: Implications for regional air quality , 1999 .

[239]  J. Jouzel,et al.  Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica , 1999, Nature.

[240]  D. Kröhling,et al.  Upper Quaternary Palaeoclimates of the Mar Chiquita area, North Pampa, Argentina , 1999 .

[241]  Irina N. Sokolik,et al.  Incorporation of mineralogical composition into models of the radiative properties of mineral aerosol from UV to IR wavelengths , 1999 .

[242]  N. McFarlane,et al.  The mineral dust aerosol cycle during the Last Glacial Maximum , 1999 .

[243]  Ina Tegen,et al.  Climate Response to Soil Dust Aerosols , 1998 .

[244]  T. N. Krishnamurti,et al.  Aerosol and pollutant transport and their impact on radiative forcing over the tropical Indian Ocean during the January February 1996 pre-INDOEX cruise , 1998 .

[245]  Z. An,et al.  Glacial and interglacial patterns for Asian dust transport , 1998 .

[246]  J. Randerson,et al.  Primary production of the biosphere: integrating terrestrial and oceanic components , 1998, Science.

[247]  K. Stahr,et al.  Deposition rates and characteristics of aeolian dust in the semi-arid and sub-humid regions of the Argentinean Pampa , 1998 .

[248]  C. Genthon,et al.  Atmospheric dust under glacial and interglacial conditions , 1998 .

[249]  M. Frechen,et al.  Loess chronology of the Middle and Upper Pleistocene in Tadjikistan , 1998 .

[250]  L. Gomes,et al.  Mineral aerosol production by wind erosion: Aerosol particle sizes and binding energies , 1998 .

[251]  J. Steffensen The size distribution of microparticles from selected segments of the Greenland Ice Core Project ice core representing different climatic periods , 1997 .

[252]  M. Frechen,et al.  Geochronology of Middle and Upper Pleistocene Loess Sections in Hungary , 1997, Quaternary Research.

[253]  Larry L. Stowe,et al.  Characterization of tropospheric aerosols over the oceans with the NOAA advanced very high resolution radiometer optical thickness operational product , 1997 .

[254]  P. Bhartia,et al.  Global distribution of UV-absorbing aerosols from Nimbus 7/TOMS data , 1997 .

[255]  R. Duce,et al.  Mass‐particle size distributions of atmospheric dust and the dry deposition of dust to the remote ocean , 1997 .

[256]  P. Hesse Mineral magnetic ‘tracing’ of aeolian dust in southwest Pacific sediments , 1997 .

[257]  George W. Luther,et al.  What controls dissolved iron concentrations in the world ocean? — a comment , 1997 .

[258]  François Dulac,et al.  Control of atmospheric export of dust from North Africa by the North Atlantic Oscillation , 1997, Nature.

[259]  T. Gill,et al.  Long‐range transport of North African dust to the eastern United States , 1997 .

[260]  L. Gomes,et al.  Modeling the size distribution of a soil aerosol produced by sandblasting , 1997 .

[261]  Paul G. Falkowski,et al.  Evolution of the nitrogen cycle and its influence on the biological sequestration of CO2 in the ocean , 1997, Nature.

[262]  Xiaoye Zhang,et al.  Temporal and spatial distributions of dust and its deposition to the China Sea , 1997 .

[263]  Bernard Aumont,et al.  Modeling the atmospheric dust cycle: 2. Simulation of Saharan dust sources , 1997 .

[264]  F. Grousset,et al.  Patagonian origin of glacial dust deposited in East Antarctica (Vostok and Dome C) during glacial stages 2, 4 and 6 , 1997 .

[265]  J. Overpeck,et al.  Possible role of dust-induced regional warming in abrupt climate change during the last glacial period , 1996, Nature.

[266]  F. Chavez,et al.  Glacial to Interglacial Fluctuations in Productivity in the Equatorial Pacific as Indicated by Marine Barite , 1996, Science.

[267]  M. Garstang,et al.  Horizontal and vertical transport of air over southern Africa , 1996 .

[268]  Raphael Kudela,et al.  A massive phytoplankton bloom induced by an ecosystem-scale iron fertilization experiment in the equatorial Pacific Ocean , 1996, Nature.

[269]  S. Bidart Sedimentological study of aeolian soil parent materials in the Río Sauce Grande basin, Buenos Aires province, Argentina , 1996 .

[270]  G. McTainsh,et al.  Quantitative estimates of the effect of climate change on dust storm activity in Australia during the Last Glacial Maximum , 1996 .

[271]  L. David Meeker,et al.  A 110,000-Yr Record of Explosive Volcanism from the GISP2 (Greenland) Ice Core , 1996, Quaternary Research.

[272]  Y. Yung,et al.  Dust: A Diagnostic of the Hydrologic Cycle During the Last Glacial Maximum , 1996, Science.

[273]  M. Suter,et al.  Increased biological productivity and export production in the glacial Southern Ocean , 1995, Nature.

[274]  A. Mix,et al.  Terrigenous Fe input and biogenic sedimentation in the glacial and interglacial equatorial Pacific Ocean , 1995 .

[275]  B. Maher,et al.  Age models, sediment fluxes and palaeoclimatic reconstructions for the Chinese loess and palaeosol sequences , 1995 .

[276]  Inez Y. Fung,et al.  Contribution to the atmospheric mineral aerosol load from land surface modification , 1995 .

[277]  Thomas K. Rockwell,et al.  Quaternary soils and dust deposition in southern Nevada and California , 1995 .

[278]  B. Marticorena,et al.  Modeling the atmospheric dust cycle: 1. Design of a soil-derived dust emission scheme , 1995 .

[279]  S. Marshall,et al.  Coupled energy‐balance/ice‐sheet model simulations of the glacial cycle: A possible connection between terminations and terrigenous dust , 1995 .

[280]  David K. Rea,et al.  Grain size distribution and depositional processes of the mineral component of abyssal sediments: Lessons from the North Pacific , 1995 .

[281]  R. Duce,et al.  Trace elements in the atmosphere over the North Atlantic , 1995 .

[282]  Z. An,et al.  Grain Size of Quartz as an Indicator of Winter Monsoon Strength on the Loess Plateau of Central China during the Last 130,000 Yr , 1995, Quaternary Research.

[283]  T. Jickells,et al.  Solubilisation of aerosol trace metals by cloud processing: A laboratory study , 1994 .

[284]  W. Peltier,et al.  Ice Age Paleotopography , 1994, Science.

[285]  P. Mayewski,et al.  Modern eolian dust deposition in central Asia , 1994 .

[286]  D. Rea The paleoclimatic record provided by eolian deposition in the deep sea: The geologic history of wind , 1994 .

[287]  A. A. Isakov,et al.  Size distributions of dust aerosol measured during the Soviet-American experiment in Tadzhikistan, 1989 , 1993 .

[288]  L. Gomes,et al.  A comparison of characteristics of aerosol from dust storms in central Asia with soil-derived dust from other regions , 1993 .

[289]  P. deMenocal,et al.  INFLUENCES OF HIGH- AND LOW-LATITUDE PROCESSES ON AFRICAN TERRESTRIAL CLIMATE:PLEISTOCENE EOLIAN RECORDS , 1993 .

[290]  R. Duce,et al.  Relationships between the dust concentrations over eastern Asia and the remote North Pacific , 1992 .

[291]  J. Jouzel,et al.  Antarctic (Dome C) ice-core dust at 18 k.y. B.P.: Isotopic constraints on origins , 1992 .

[292]  Michael Garstang,et al.  Saharan dust in the Amazon Basin , 1992 .

[293]  T. Hughes Abrupt climatic change related to unstable ice-sheet dynamics: toward a new paradigm , 1992 .

[294]  S. Fitzwater,et al.  The case for iron , 1991 .

[295]  B. Hicks,et al.  The atmospheric input of trace species to the world ocean , 1991 .

[296]  R. M. Owen,et al.  Geochemistry of eolian dust in Pacific pelagic sediments: Implications for paleoclimatic interpretations , 1991 .

[297]  N. Pisias,et al.  Late Pleistocene Continental Climate and Oceanic Variability Recorded in Northwest Pacific Sediments , 1991 .

[298]  M. Bacon,et al.  Variations in Terrigenous Input into the Deep Equatorial Atlantic During the Past 24,000 Years , 1991, Science.

[299]  U. Schwertmann,et al.  Iron Oxides in the Laboratory: Preparation and Characterization , 1991 .

[300]  J. Dixon,et al.  Minerals in soil environments , 1990 .

[301]  S. Fitzwater,et al.  Iron in Antarctic waters , 1990, Nature.

[302]  N. Pisias,et al.  A direct link between the China loess and marine δ18O records: aeolian flux to the north Pacific , 1989, Nature.

[303]  R. Feely,et al.  Long–range transport of giant mineral aerosol particles , 1988, Nature.

[304]  Joseph M. Prospero,et al.  Nitrate, non-sea-salt sulfate, and mineral aerosol over the northwestern Indian Ocean , 1987 .

[305]  T. Janecek Eolian Sedimentation in the Northwest Pacific Ocean: A Preliminary Examination of the Data from Deep Sea Drilling Project Sites 576 and 578 , 1985 .

[306]  J. Steffensen Microparticles in snow from the South Greenland ice sheet , 1985 .

[307]  D. Rea,et al.  Geologic Approach to the Long-Term History of Atmospheric Circulation , 1985, Science.

[308]  M. Bacon Glacial to interglacial changes in carbonate and clay sedimentation in the Atlantic Ocean estimated from 230Th measurements , 1984 .

[309]  Joseph M. Prospero,et al.  Transport of mineral aerosol from Asia Over the North Pacific Ocean , 1983 .

[310]  J. Dulhunty Holocene sedimentary environments in Lake Eyre, South Australia , 1982 .

[311]  M. Joseph Eolian transport to the world ocean , 1981 .

[312]  A. Royer,et al.  Ice age aerosol content from East Antarctic ice core samples and past wind strength , 1981, Nature.

[313]  J. Prospero,et al.  Long-Range Atmospheric Transport of Soil Dust from Asia to the Tropical North Pacific: Temporal Variability , 1980, Science.

[314]  J. Bowler Aridity in Australia: Age, origins and expression in aeolian landforms and sediments , 1976 .

[315]  Ruprecht Jaenicke,et al.  Particle Number and Mass Distributions above 10−4 cm Radius in Sand and Aerosol of the Sahara Desert , 1974 .

[316]  A. Pitty,et al.  Particle Size of the Saharan Dust which fell in Britain in July 1968 , 1968, Nature.

[317]  M. Frezzotti,et al.  Geographic provenance of aeolian dust in East Antarctica during Pleistocene glaciations: preliminary results from Talos Dome and comparison with East Antarctic and new Andean ice core data , 2010 .

[318]  B. Maher Sourcing and quantifying aeolian dust in the Quaternary sedimentary record, Southern Ocean , 2009 .

[319]  G. Weltje,et al.  Unravelling the geologic dust record , 2008 .

[320]  W. Balsam,et al.  Marine sediment components: identification and dispersal assessed by diffuse reflectance spectrophotometry , 2007 .

[321]  N. Harada,et al.  Th , C and 13 C / 12 C in a sediment core in the western subarctic Pacific as proxies of past biological production , 2007 .

[322]  J. Vandenberghe,et al.  Late Quaternary aeolian dust input variability on the Chinese Loess Plateau: inferences from unmixing of loess grain-size records , 2007 .

[323]  M. Kahnert,et al.  Mie simulations as an error source in mineral aerosol radiative forcing calculations , 2007 .

[324]  R. Losno,et al.  Dissolution and solubility of trace metals from natural and anthropogenic aerosol particulate matter. , 2005, Chemosphere.

[325]  Mitchell W Lyle,et al.  Patchy deposits of Cenozoic pelagic sediments in the central Pacific , 2005 .

[326]  H. Rabitz,et al.  Glacial/Interglacial Changes in Subarctic North , 2005 .

[327]  R. Kemp,et al.  The pedosedimentary evolution and chronology of Tortugas, a Late Quaternary type-site of the northern Pampa, Argentina , 2004 .

[328]  N. Mahowald,et al.  Radiative forcing of climate by ice-age atmospheric dust , 2003 .

[329]  Elizabeth K. Peterson,et al.  ACCUMULATION AND PRESERVATION OF LOESS DEPOSITS IN THE CENTRAL TABLELANDS OF NEW SOUTH WALES , 2003 .

[330]  J. Kutzbach,et al.  A Simulation of the Last Glacial Maximum climate using the NCAR-CCSM , 2003 .

[331]  W. Balsam,et al.  Visible spectroscopy of aerosol particles collected on filters: iron-oxide minerals , 2002 .

[332]  J. Houghton,et al.  Climate change 2001 : the scientific basis , 2001 .

[333]  P. Boyd,et al.  Iron-mediated changes in phytoplankton photosynthetic competence during SOIREE , 2001 .

[334]  S. Doney,et al.  Iron cycling and nutrient-limitation patterns in surface waters of the World Ocean , 2001 .

[335]  J. Penner,et al.  Aerosols, their Direct and Indirect Effects , 2001 .

[336]  P. Worsfold,et al.  The fate of added iron during a mesoscale fertilisation experiment in the Southern Ocean , 2001 .

[337]  Z. An,et al.  East Asian monsoon variation during the last 130,000 Years: evidence from the Loess Plateau of central China and Lake Biwa of Japan , 1999 .

[338]  M. Schulz,et al.  Importance of the Source Term and of the Size Distribution to Model the Mineral Dust Cycle , 1996 .

[339]  J. Prospero Saharan Dust Transport Over the North Atlantic Ocean and Mediterranean: An Overview , 1996 .

[340]  V. Ittekkot Particle flux in the ocean , 1996 .

[341]  R. Collier,et al.  Export production of particles to the interior of the equatorial Pacific Ocean during the 1992 EqPac experiment , 1995 .

[342]  P. Hesse The record of continental dust from Australia in Tasman Sea Sediments , 1994 .

[343]  D. Wagenbach,et al.  The Mineral Dust Record in a High Altitude Alpine Glacier (Colle Gnifetti, Swiss Alps) , 1989 .

[344]  K. Pye Processes of Fine Particle Formation, Dust Source Regions, and Climatic Changes , 1989 .

[345]  G. McTainsh Quaternary aeolian dust processes and sediments in the Australian region , 1989 .

[346]  G. Kukla Loess stratigraphy in central China , 1987 .

[347]  T. Pedersen Increased productivity in the eastern equatorial Pacific during the last glacial maximum (19,000 to 14,000 yr B.P) , 1983 .

[348]  C. Emiliani The oceanic lithosphere , 1981 .

[349]  Dale A. Gillette,et al.  A wind tunnel simulation of the erosion of soil: Effect of soil texture, sandblasting, wind speed, and soil consolidation on dust production , 1978 .

[350]  C. Junge,et al.  Air chemistry and radioactivity , 1963 .