Ayris, Paul
[UCL]
Delmelle, Pierre
[UCL]
The Earth’s history is punctuated by large explosive
eruptions that eject large quantities of magma and
silicate rock fragments into the atmosphere. These tephra
particles can sometimes be dispersed across millions of
square kilometres or even entire continents. The interaction
of tephra with or in receiving environments may induce an
array of physical, chemical and biological effects. The consequences
for affected systems and any dependent communities
may be chronic and localised in the event of frequent,
small eruptions, while larger and rarer events may have
acute, regional-scale impacts. It is, therefore, necessary to
document the range of possible impacts that tephra may
induce in receiving environments and any resulting effects
in interconnected systems. We collate results from many
studies to offer a detailed multidisciplinary and interdisciplinary
review of the immediate post-eruptive effects of
tephra emission into the atmosphere, onto vegetation, soil
or ice/snow surfaces and in aquatic systems. We further
consider the repercussions that may be induced in the weeks
to years afterwards. In the atmosphere, tephra can influence
cloud properties and air chemistry by acting as ice nuclei
(IN) or by offering sites for heterogeneous reactions, respectively.
Tephra on vegetation causes physical damage, and
sustained coverage may elicit longer-term physiological
responses. Tephra deposits on soils may alter their capacity
to exchange gas, water and heat with the atmosphere or may
have a specific chemical effect, such as nutrient input or
acidification, on sensitive soils. Tephra deposition onto
snow or ice may affect ablation rates. Rivers and lakes
may experience turbidity increases and changes in their
morphology as a result of fallout and prolonged (months
or years) erosion from the tephra-covered catchment. In the
first weeks after deposition, tephra leaching may affect river
chemistry. The abundance and speciation of phytoplankton
populations in lakes may be altered by tephra-induced
changes in water chemistry or sediment–water nutrient cycling.
In the oceans, tephra deposition may fertilise Felimited
waters, with potential impacts on the global carbon
cycle. Embracing the full complexity of environmental
effects caused by tephra fall demands a renewed investigative
effort drawing on interdisciplinary field and laboratory
studies, combined with consideration of the interconnectivity
of induced impacts within and between different receiving
environments.
- Abella Sally E. B., The effect of the Mt. Mazama ashfall on the planktonic diatom community of Lake Washington1 : Ashfall and diatoms, 10.4319/lo.1988.33.6.1376
- ADAMS C. M., HUTCHINSON T. C., COMPARATIVE ABILITIES OF LEAF SURFACES TO NEUTRALIZE ACIDIC RAINDROPS. II. THE INFLUENCE OF LEAF WETTABILITY, LEAF AGE AND RAIN DURATION ON CHANGES IN DROPLET pH AND CHEMISTRY ON LEAF SURFACES, 10.1111/j.1469-8137.1987.tb00151.x
- Alfano Fabrizio, Bonadonna Costanza, Delmelle Pierre, Costantini Licia, Insights on tephra settling velocity from morphological observations, 10.1016/j.jvolgeores.2011.09.013
- Anderson T (1908) Report on the eruptions of the Soufriere in St. Vincent in 1902, and on a visit to Montagne Pelee in Martinique. Part II. The changes in the districts and the subsequent history of the volcanoes. Proc R Soc Lond A 208:278–303
- Antos Joseph A., Zobel Donald B., Snowpack Modification of Volcanic Tephra Effects on Forest Understory Plants Near Mount St. Helens, 10.2307/1940135
- Antos JA, Zobel DB (1985a) Recovery of forest under-stories buried by tephra from Mount St. Helens. Vegetatio 64(2–3):103–111
- Antos Joseph A., Zobel Donald B., Upward movement of underground plant parts into deposits of tephra from Mount St. Helens, 10.1139/b85-294
- Antos Joseph A., Zobel Donald B., Plant form, developmental plasticity, and survival following burial by volcanic tephra, 10.1139/b85-293
- Antos JA, Zobel DB (1987) How plants survive burial: a review and initial responses to tephra from Mount St. Helens. In: Bilderback DE (ed) Mount St. Helens 1980: botanical consequences of the explosive eruptions. University of California Press, Berkeley, pp 246–261
- Antos Joseph A., Zobel Donald B., Plant Responses in Forests of the Tephra-Fall Zone, Ecological Responses to the 1980 Eruption of Mount St. Helens ISBN:9780387238685 p.47-58, 10.1007/0-387-28150-9_4
- Armienta M.A., De la Cruz-Reyna S., Morton O., Cruz O., Ceniceros N., Chemical variations of tephra-fall deposit leachates for three eruptions from Popocatépetl volcano, 10.1016/s0377-0273(01)00251-7
- Armienta M. A., De la Cruz-Reyna S., Cruz O., Ceniceros N., Aguayo A., Marin M., Fluoride in ash leachates: environmental implications at Popocatépetl volcano, central Mexico, 10.5194/nhess-11-1949-2011
- Armienta Ma Aurora, Martin-Del-Pozzo A.L., Espinasa R., Cruz O., Ceniceros N., Aguayo A., Butron M.A., Geochemistry of ash leachates during the 1994–1996 activity of Popocatépetl volcano, 10.1016/s0883-2927(98)00012-2
- Araya O, Wittwer F, Villa A, Ducom C (1990) Bovine fluorosis following volcanic activity in the southern Andes. Vet Rec 126(26):641–642
- Ayris PM, Delmelle P (2012) Volcanic and atmospheric controls on ash iron solubility: a review. Phy Chem Earth A B C. doi: 10.1016/j.pce.2011.1004.1013
- Bains Santo, Norris Richard D., Corfield Richard M., Faul Kristina L., 10.1038/35025035
- Baker AJM (1987) Metal tolerance. New Phytol 106(1):93–111
- Barker Philip, Telford Richard, Merdaci Ouassila, Williamson David, Taieb Maurice, Vincens Annie, Gibert Elisabeth, The sensitivity of a Tanzanian crater lake to catastrophic tephra input and four millennia of climate change, 10.1191/095968300672848582
- Bay R. C., Bramall N., Price P. B., Bipolar correlation of volcanism with millennial climate change, 10.1073/pnas.0400323101
- Benn DI, Evans DJA (2010) Glaciers and glaciation. Arnold, London, p 816
- Bingemer H., Klein H., Ebert M., Haunold W., Bundke U., Herrmann T., Kandler K., Müller-Ebert D., Weinbruch S., Judt A., Ardon-Dryer K., Levin Z., Curtius J., Atmospheric ice nuclei in the Eyjafjallajökull volcanic ash plume, 10.5194/acpd-11-2733-2011
- Biondi Franco, Estrada Ignacio Galindo, Gavilanes Ruiz Juan Carlos, Torres Alejandro Elizalde, Tree growth response to the 1913 eruption of Volcán de Fuego de Colima, Mexico, 10.1016/s0033-5894(03)00034-6
- Black R. A., Mack R. N., Aseasonal leaf abscission in Populus induced by volcanic ash, 10.1007/bf00379124
- Black R. Alan, Mack Richard N., Mount St. Helens Ash: Recreating Its Effects on the Steppe Environment and Ecophysiology, 10.2307/1938685
- Blackford Jeffrey J., Edwards Kevin J., Dugmore Andrew J., Cook Gordon T., Buckland Paul C., Icelandic volcanic ash and the mid- Holocene Scots pine (Pinus sylvestris) pollen decline in northern Scotland, 10.1177/095968369200200308
- Bonadonna C., Ernst G.G.J., Sparks R.S.J., Thickness variations and volume estimates of tephra fall deposits: the importance of particle Reynolds number, 10.1016/s0377-0273(98)00007-9
- Bonadonna Costanza, Phillips Jeremy C., Sedimentation from strong volcanic plumes : SEDIMENTATION FROM VOLCANIC PLUMES, 10.1029/2002jb002034
- Bonadonna C., Houghton B. F., Total grain-size distribution and volume of tephra-fall deposits, 10.1007/s00445-004-0386-2
- Bourne HL (2011) Linkages between climate change, volcanism, and diatom productivity over the past 13,000 years in Swiftcurrent Lake, Glacier National Park, Montana. Honors Theses—All. Paper 639, Wesleyan University, Middletown
- Brady P. V., Walther J. V., Surface chemistry and silicate dissolution at elevated temperatures, 10.2475/ajs.292.9.639
- Braen SusanN., Weinstein LeonardH., Uptake of fluoride and aluminum by plants grown in contaminated soils, 10.1007/bf00285446
- Brand Larry E., Sunda William G., Guillard Robert R. L., Limitation of marine phytoplankton reproductive rates by zinc, manganese, and iron1 : Zn, Mn, Fe limitation in algae, 10.4319/lo.1983.28.6.1182
- Brand Larry E., Sunda William G., Guillard Robert R.L., Reduction of marine phytoplankton reproduction rates by copper and cadmium, 10.1016/0022-0981(86)90205-4
- Brock Benjamin, Rivera Andrés, Casassa Gino, Bown Francisca, Acuña César, The surface energy balance of an active ice-covered volcano: Villarrica Volcano, southern Chile, 10.3189/172756407782282372
- Brown R.J., Bonadonna C., Durant A.J., A review of volcanic ash aggregation, 10.1016/j.pce.2011.11.001
- Bruland Kenneth W., Donat John R., Hutchins David A., Interactive influences of bioactive trace metals on biological production in oceanic waters, 10.4319/lo.1991.36.8.1555
- Burnham Robyn J., Plant deposition in modern volcanic environments, 10.1017/s026359330000609x
- Burns RG (1970) Mineralogical applications of crystal field theory. Cambridge University Press, Cambridge, p 551
- Calkins JA, Nattrass C, Harris E, Detienne M, Myers N, Van den Berg L, Delmelle P (2011) Impacts of ash deposition on soils following the 2010 eruption of Eyjafjallajökull volcano, Iceland. Geophysical Research Abstracts: EGU2011-11112
- Carey Steven, Influence of convective sedimentation on the formation of widespread tephra fall layers in the deep sea, 10.1130/0091-7613(1997)025<0839:iocsot>2.3.co;2
- Carey Steven N., Sigurdsson Haraldur, Influence of particle aggregation on deposition of distal tephra from the MAy 18, 1980, eruption of Mount St. Helens volcano, 10.1029/jb087ib08p07061
- Cashman KV, Sturtevant B, Papale P, Navon O (2000) Magmatic fragmentation. In: Sigurdsson H, Houghton B, McNutt S, Rymer H, Stix J (eds) Encyclopedia of volcanoes. Academic, London, pp 421–430
- Cather Steven M., Dunbar Nelia W., McDowell Fred W., McIntosh William C., Scholle Peter A., Climate forcing by iron fertilization from repeated ignimbrite eruptions: The icehouse–silicic large igneous province (SLIP) hypothesis, 10.1130/ges00188.1
- Cimino Giuseppe, Toscano Giovanni, Dissolution of trace metals from lava ash: influence on the composition of rainwater in the Mount Etna volcanic area, 10.1016/s0269-7491(98)00004-9
- Chakraborty Parthasarathi, Raghunadh Babu P.V., Acharyya Tamoghna, Bandyopadhyay Debasmita, Stress and toxicity of biologically important transition metals (Co, Ni, Cu and Zn) on phytoplankton in a tropical freshwater system: An investigation with pigment analysis by HPLC, 10.1016/j.chemosphere.2010.04.039
- Chen Haihan, Navea Juan G., Young Mark A., Grassian Vicki H., Heterogeneous Photochemistry of Trace Atmospheric Gases with Components of Mineral Dust Aerosol, 10.1021/jp110164j
- Chinen T (1986) Surface erosion associated with tephra deposition on Mt. Usu and other volcanoes. Environmental Science, Hokkaido: J Grad Sch Environ Sci Hokkaido Univ Sapporo 9(1):137–149
- Christenson B.W., Geochemistry of fluids associated with the 1995–1996 eruption of Mt. Ruapehu, New Zealand: signatures and processes in the magmatic-hydrothermal system, 10.1016/s0377-0273(99)00167-5
- Cienfuegos MS, Beltrano J (1995) Las cenizas del Volcan Hudson como sustrato para el cultivo de plantas. In: Bitschene PR, Menida J (eds) The August 1991 eruption of the Hudson Volcano (Patagonian Andes): a thousand days after. Cuvillier, Gottingen, pp 65–69
- COLLINS BRIAN D., DUNNE THOMAS, Erosion of tephra from the 1980 eruption of Mount St. Helens, 10.1130/0016-7606(1986)97<896:eotfte>2.0.co;2
- Collinson JD, Thompson DB (1989) Sedimentary structures. Unwin Hyman Ltd, London, p 207
- Colton HS (1965) Experiments in raising corn in the Sunset Crater ashfall area east of Flagstaff, Arizona. Plateau 37:77–79
- Conway H., Gades A., Raymond C. F., Albedo of dirty snow during conditions of melt, 10.1029/96wr00712
- Cook R. J., Barron J. C., Papendick R. I., Williams G. J., Impact on Agriculture of the Mount St. Helens Eruptions, 10.1126/science.211.4477.16
- Cronin S. J., Hedley M. J., Neall V. E., Smith R. G., Agronomic impact of tephra fallout from the 1995 and 1996 Ruapehu Volcano eruptions, New Zealand, 10.1007/s002540050253
- Cronin S. J., Manoharan V., Hedley M. J., Loganathan P., Fluoride: A review of its fate, bioavailability, and risks of fluorosis in grazed‐pasture systems in New Zealand, 10.1080/00288233.2000.9513430
- Cronin Shane J, Neall V.E, Lecointre J.A, Hedley M.J, Loganathan P, Environmental hazards of fluoride in volcanic ash: a case study from Ruapehu volcano, New Zealand, 10.1016/s0377-0273(02)00465-1
- Crowley Sharon S., Dufek Debra A., Stanton Ronald W., Ryer Thomas A., The Effects of Volcanic Ash Disturbances on a Peat: Forming Environment: Environmental Disruption and Taphonomic Consequences, 10.2307/3515103
- Cushing C. E., Smith S. D., Effects of Mt. St. Helens Ashfall on Lotic Algae and Caddisflies, 10.1080/02705060.1982.9664071
- Cwiertny David M., Young Mark A., Grassian Vicki H., Chemistry and Photochemistry of Mineral Dust Aerosol, 10.1146/annurev.physchem.59.032607.093630
- Dahlgren Randy A., Acid Deposition Effects on Soils, Encyclopedia of Soil Science (2008) ISBN:9781402039942 p.2-7, 10.1007/978-1-4020-3995-9_6
- Dahlgren R. A., Ugolini F. C., Aluminum Fractionation of Soil Solutions from Unperturbed and Tephra-Treated Spodosols, Cascade Range, Washington, USA, 10.2136/sssaj1989.03615995005300020043x
- Dahlgren R.A., Ugolini F.C., Casey W.H., Field weathering rates of Mt. St. Helens tephra, 10.1016/s0016-7037(99)00067-8
- Ecological Responses to the 1980 Eruption of Mount St. Helens, ISBN:9780387238685, 10.1007/0-387-28150-9
- Dartevelle Sébastien, Ernst Gérald G.J., Stix John, Bernard Alain, Origin of the Mount Pinatubo climactic eruption cloud: Implications for volcanic hazards and atmospheric impacts, 10.1130/0091-7613(2002)030<0663:ootmpc>2.0.co;2
- de Hoog J.C.M., Koetsier G.W., Bronto S., Sriwana T., van Bergen M.J., Sulfur and chlorine degassing from primitive arc magmas: temporal changes during the 1982–1983 eruptions of Galunggung (West Java, Indonesia), 10.1016/s0377-0273(00)00278-x
- de Moor J.M., Fischer T.P., Hilton D.R., Hauri E., Jaffe L.A., Camacho J.T., Degassing at Anatahan volcano during the May 2003 eruption: Implications from petrology, ash leachates, and SO2 emissions, 10.1016/j.jvolgeores.2004.11.034
- Delfosse T., Delmelle P., Iserentant A., Delvaux B., Contribution of SO3 to the acid neutralizing capacity of Andosols exposed to strong volcanogenic acid and SO2 deposition, 10.1111/j.1365-2389.2004.00646.x
- Delmelle Pierre, Lambert Mathieu, Dufrêne Yves, Gerin Patrick, Óskarsson Niels, Gas/aerosol–ash interaction in volcanic plumes: New insights from surface analyses of fine ash particles, 10.1016/j.epsl.2007.04.052
- Delmelle Pierre, Villi�ras Fr�d�ric, Pelletier Manuel, Surface area, porosity and water adsorption properties of fine volcanic ash particles, 10.1007/s00445-004-0370-x
- De Vleeschouwer François, Van Vliët Lanoé Brigitte, Fagel Nathalie, Long term mobilisation of chemical elements in tephra-rich peat (NE Iceland), 10.1016/j.apgeochem.2008.10.006
- Diaz F., Jimenez C.C., Tejedor M., Influence of the thickness and grain size of tephra mulch on soil water evaporation, 10.1016/j.agwat.2004.10.011
- Dingwell D. B., Volcanic Dilemma--Flow or Blow?, 10.1126/science.273.5278.1054
- Dingwell D.B., Lavallée Y., Kueppers U., Volcanic ash: A primary agent in the Earth system, 10.1016/j.pce.2011.07.007
- Dise Nancy B., Verry Elon S., 10.1023/a:1010774610050
- Driedger CL (1981) Effect of ash thickness on snow ablation. In: Lipman PW, Mullineaux DR (eds) The 1980 eruptions of Mount St. Helens, Washington: USGS professional paper 1250. USGS, Washington DC, pp 757–760
- Duggen Svend, Croot Peter, Schacht Ulrike, Hoffmann Linn, Subduction zone volcanic ash can fertilize the surface ocean and stimulate phytoplankton growth: Evidence from biogeochemical experiments and satellite data, 10.1029/2006gl027522
- Duggen S., Olgun N., Croot P., Hoffmann L., Dietze H., Teschner C., The role of airborne volcanic ash for the surface ocean biogeochemical iron-cycle: a review, 10.5194/bgd-6-6441-2009
- Dunbar N. W., McIntosh W. C., Esser R. P., Physical setting and tephrochronology of the summit caldera ice record at Mount Moulton, West Antarctica, 10.1130/b26140.1
- Durant A. J., Shaw R. A., Rose W. I., Mi Y., Ernst G. G. J., Ice nucleation and overseeding of ice in volcanic clouds, 10.1029/2007jd009064
- Durant Adam J., Villarosa Gustavo, Rose William I., Delmelle Pierre, Prata Alfred J., Viramonte José G., Long-range volcanic ash transport and fallout during the 2008 eruption of Chaitén volcano, Chile, 10.1016/j.pce.2011.09.004
- Dwyer Rosaleen B., Mitchell Fraser J.G., Investigation of the environmental impact of remote volcanic activity on north Mayo, Ireland, during the mid-Holocene, 10.1177/095968369700700111
- Edmonds M., Oppenheimer C., Pyle D. M., Herd R. A., Rainwater and ash leachate analysis as proxies for plume chemistry at Soufrière Hills volcano, Montserrat, 10.1144/gsl.sp.2003.213.01.12
- Edwards John S., Animals and volcanoes: survival and revival, Volcanoes and the Environment ISBN:9780511614767 p.250-272, 10.1017/cbo9780511614767.010
- Edwards KJ, Craigie R (1998) Palynological and vegetational changes associated with the deposition of Saksunarvatn Ash in the Faroe Islands. Fróðskaparrit 46:245–258
- Edwards Kevin J., Dugmore Andrew J., Blackford Jeff J., Vegetational response to tephra deposition and land-use change in Iceland: a modern analogue and multiple working hypothesis approach to tephropalynology, 10.1017/s0032247403003000
- Eggler Willis A., Plant Communities in the Vicinity of the Volcano El Paricutin, Mexico, After Two and A Half Years of Eruption, 10.2307/1932635
- EICHER GEORGE J., ROUNSEFELL GEORGE A., Effects of Lake Fertilization by Volcanic Activity on Abundance of Salmon1, 10.4319/lo.1957.2.2.0070
- El-Swaify SA, Dangler EW, Armstrong CL (1982) Soil erosion by water in the tropics. In: College of Tropical Agriculture and Human Resources, University of Hawaii Research Extension Series 024, Honolulu, p 172
- Elliott L. F., Tittemore D., Papendick R. I., Cochran V. L., Bezdicek D. F., The Effect of Mount St. Helens' Ash on Soil Microbial Respiration and Numbers1, 10.2134/jeq1982.00472425001100020003x
- Fasham MJR (2003) Ocean biogeochemistry: the role of the ocean carbon cycle in global change. Springer, Berlin, p 297
- Faulconer L, Mongillo P (1981) Effects of Mount St. Helens ashfall on three trout streams and Bumping Lake in the Yakima Basin. Wash State Game Dept Bull 16:1–34
- Ferguson R.I., Church M., A Simple Universal Equation for Grain Settling Velocity, 10.1306/051204740933
- Flaathen Therese K., Gislason Sigurdur R., The effect of volcanic eruptions on the chemistry of surface waters: The 1991 and 2000 eruptions of Mt. Hekla, Iceland, 10.1016/j.jvolgeores.2007.05.014
- Forchhammer, LXXXVII.Account of a volcanic eruption in Iceland, 10.1080/14786442208652768
- Fornea Adam P., Brooks Sarah D., Dooley Jeffrey B., Saha Auromeet, Heterogeneous freezing of ice on atmospheric aerosols containing ash, soot, and soil, 10.1029/2009jd011958
- Frenzel SA (1983) Effects of volcanic ash on the benthic environment of a mountain stream, Northern Idaho. USGS Water-Res Investig Rep 82(4106):1–32
- Frogner Paul, Reynir Gíslason Sigurdur, Óskarsson Niels, Fertilizing potential of volcanic ash in ocean surface water, 10.1130/0091-7613(2001)029<0487:fpovai>2.0.co;2
- Funk WH (1980) Effects of ash fallout on eastern Washington lakes and the upper Spokane River. In: Cassidy JJ (ed) Proceedings of the Conference on the Aftermath of Mount St. Helens. Washington State University, Pullman, Washington, pp 18–19
- Gauci Vincent, Blake Stephen, Stevenson David S., Highwood Eleanor J., Halving of the northern wetland CH4source by a large Icelandic volcanic eruption, 10.1029/2007jg000499
- Gauci V, Dise NB, Fowler R (2002) Controls on suppression of methane flux from a peat bog subjected to simulated acid rain sulfate deposition. Global Biogeochem Cycles 16(1004):10.1029/2000GB001370
- GEBCO (2008) GEBCO_08 Grid, version 20100927. Available at http://www.gebco.net . Accessed 6 Aug 2012
- Germanovich Leonid N., Lowell Robert P., The mechanism of phreatic eruptions, 10.1029/94jb03096
- Gerstell M. F., Crisp Joy, Crisp David, Radiative Forcing of the Stratosphere by SO2Gas, Silicate Ash, and H2SO4Aerosols Shortly after the 1982 Eruptions of El Chichón, 10.1175/1520-0442(1995)008<1060:rfotsb>2.0.co;2
- Giles Teresa M., Newnham Rewi M., Lowe David J., Munro Adam J., Impact of tephra fall and environmental change: a 1000 year record from Matakana Island, Bay of Plenty, North Island, New Zealand, 10.1144/gsl.sp.1999.161.01.03
- Ginot P., Schotterer U., Stichler W., Godoi M. A., Francou B., Schwikowski M., Influence of the Tungurahua eruption on the ice core records of Chimborazo, Ecuador, 10.5194/tcd-4-1343-2010
- Gintenreiter S, Ortel J, Nopp HJ (1993) Bioaccumulation of cadmium, lead, copper, and zinc in successive developmental stages of Lymantria dispar L. (Lymantriidae, Lepid): a life cycle study. Arch Environ Contam Toxicol 25(1):55–61
- Gislason S. R., Hassenkam T., Nedel S., Bovet N., Eiriksdottir E. S., Alfredsson H. A., Hem C. P., Balogh Z. I., Dideriksen K., Oskarsson N., Sigfusson B., Larsen G., Stipp S. L. S., Characterization of Eyjafjallajokull volcanic ash particles and a protocol for rapid risk assessment, 10.1073/pnas.1015053108
- Gı́slason S.R, Snorrason Á, Kristmannsdóttir H.K, Sveinbjörnsdóttir Á.E, Torsander P, Ólafsson J, Castet S, Dupré B, Effects of volcanic eruptions on the CO2 content of the atmosphere and the oceans: the 1996 eruption and flood within the Vatnajökull Glacier, Iceland, 10.1016/s0009-2541(02)00116-x
- Goldin A (1982) Influence of volcanic ash from the May 18, 1980, eruption of Mount St. Helens on the properties of soils. J Soil Water Conserv 37(3):185–189
- Goudie A.S., Middleton N.J., Saharan dust storms: nature and consequences, 10.1016/s0012-8252(01)00067-8
- Gow Anthony J., Williamson Terrence, Volcanic ash in the Antarctic ice sheet and its possible climatic implications, 10.1016/0012-821x(71)90126-9
- Granberg G., Sundh I., Svensson B. H., Nilsson M., EFFECTS OF TEMPERATURE, AND NITROGEN AND SULFUR DEPOSITION, ON METHANE EMISSION FROM A BOREAL MIRE, 10.1890/0012-9658(2001)082[1982:eotana]2.0.co;2
- Griggs Robert F., The Effect of the Eruption of Katmai on Land Vegetation, 10.2307/201243
- Griggs RF (1919) The beginnings of revegetation in Katmai Valley. Ohio J Sci 19(6):318–342
- Grishin Sergei Yu., Moral Roger, Krestov Pavel V., Verkholat Valentina P., Succession following the catastrophic eruption of Ksudach volcano (Kamchatka, 1907), 10.1007/bf00044637
- Grobbelaar Johan U., Phytoplankton productivity in turbid waters, 10.1093/plankt/7.5.653
- Gronvold K, Johannesson H (1984) Eruption in Grimsvotn 1983; course of events and chemical studies of tephra. Jokull 34:1–11
- Hadley David, Hufford Gary L., Simpson James J., Resuspension of Relic Volcanic Ash and Dust from Katmai: Still an Aviation Hazard, 10.1175/1520-0434(2004)019<0829:rorvaa>2.0.co;2
- Haeckel Matthias, van Beusekom Justus, Wiesner Martin G., König Iris, The impact of the 1991 Mount Pinatubo tephra fallout on the geochemical environment of the deep-sea sediments in the South China Sea, 10.1016/s0012-821x(01)00496-4
- HAINES B. L., JERNSTEDT J. A., NEUFELD H. S., DIRECT FOLIAR EFFECTS OF SIMULATED ACID RAIN. II. LEAF SURFACE CHARACTERISTICS, 10.1111/j.1469-8137.1985.tb03668.x
- Hamme Roberta C., Webley Peter W., Crawford William R., Whitney Frank A., DeGrandpre Michael D., Emerson Steven R., Eriksen Charles C., Giesbrecht Karina E., Gower Jim F. R., Kavanaugh Maria T., Peña M. Angelica, Sabine Christopher L., Batten Sonia D., Coogan Laurence A., Grundle Damian S., Lockwood Deirdre, Volcanic ash fuels anomalous plankton bloom in subarctic northeast Pacific : ASH FUELS ANOMALOUS PLANKTON BLOOM, 10.1029/2010gl044629
- Harris Elaine, Mack Richard N., Ku Maurice S. B., Death of Steppe Cryptogams Under the Ash from Mount St. Helens, 10.2307/2444160
- Hayes Shannon K, Montgomery David R, Newhall Christopher G, Fluvial sediment transport and deposition following the 1991 eruption of Mount Pinatubo, 10.1016/s0169-555x(01)00155-6
- Healy E (2007) Dominant types of problem lands. Land and Water Digital Media Series (20). FAO-UNESCO. Available at http://www.fao.org/nr/land/soils/en/ . Accessed 6 Aug 2012
- HEIKEN GRANT, Morphology and Petrography of Volcanic Ashes, 10.1130/0016-7606(1972)83[1961:mapova]2.0.co;2
- Helgason J (2000) Ground ice in iceland: possible analogs for equatorial Mars. In: International Conference on Mars Polar Science and Exploration, p 72
- Hickman Michael, Reasoner Mel A., 10.1023/a:1007978730349
- Hinckley Thomas M., Imoto Hiromi, Lee Katharine, Lacker Susan, Morikawa Yasushi, Vogt Kristiina A., Grier Charles C., Keyes Michael R., Teskey Robert O., Seymour Virginia, Impact of tephra deposition on growth in conifers: the year of the eruption, 10.1139/x84-130
- Hinkley TK, Smith KS (1982) Leachate chemistry of ash from the May 18, 1980 eruption of Mount St. Helens. US Geol Surv Prof Pap 1397-B:23–64
- Hinkley TK, Smith KS, Taggart JE, Brown JT (1982) Chemical and mineralogic aspects of observed fractionation of ash from May 18, 1980 eruption of Mount St. Helens. US Geol Surv Prof Pap 1397-A:10–22
- Hobbie Sarah E., Effects of plant species on nutrient cycling, 10.1016/0169-5347(92)90126-v
- Hobbs L, Gilbert JS, Lane SJ (2011) The significance of volcanic ash fall for Earth’s glaciers. In: Volcanic and Magmatic Studies Group Annual Meeting, 5–7 January 2011, Queens' College, Cambridge, p A43
- Hobbs Peter V., Hegg Dean A., Radke Lawrence F., Resuspension of volcanic ash from Mount St. Helens, 10.1029/jc088ic06p03919
- Hogg P., Squires P., Fitter A.H., Acidification, nitrogen deposition and rapid vegetational change in a small valley mire in Yorkshire, 10.1016/0006-3207(94)00040-w
- Hooper DM, Hill BE (2004) Geomorphologic evolution of the tephra deposit from Parícutin Volcano, Mexico. In: IAVCEI General Assembly: Volcanism and its Impact on Society, 17–24 November 2004, Pucón, Chile
- Horwell Claire J., Baxter Peter J., The respiratory health hazards of volcanic ash: a review for volcanic risk mitigation, 10.1007/s00445-006-0052-y
- Horwell CJ, Baxter PJ, Hillman S, Damby D (2011) Respiratory health hazard assessment of ash from the 2010 eruption of Eyjafjallajökull volcano, Iceland. Geophys Res Abstr 13:EGU2011-2598-2
- Horwell C.J., Fenoglio I., Fubini B., Iron-induced hydroxyl radical generation from basaltic volcanic ash, 10.1016/j.epsl.2007.07.032
- Hotes S, Poschlod P, Sakai H, Inoue T (2001) Vegetation, hydrology and development of a coastal mire in Hokkaido, Japan, affected by flooding and tephra deposition. Can J Bot 79(3):341–361
- Hotes Stefan, Poschlod Peter, Takahashi Hidenori, Effects of volcanic activity on mire development: case studies from Hokkaido, northern Japan, 10.1191/0959683606hl952rp
- HOTES S., POSCHLOD P., TAKAHASHI H., GROOTJANS A. P., ADEMA E., Effects of tephra deposition on mire vegetation: a field experiment in Hokkaido, Japan, 10.1111/j.0022-0477.2004.00901.x
- Hoyle C. R., Pinti V., Welti A., Zobrist B., Marcolli C., Luo B., Höskuldsson Á., Mattsson H. B., Stetzer O., Thorsteinsson T., Larsen G., Peter T., Ice nucleation properties of volcanic ash from Eyjafjallajökull, 10.5194/acp-11-9911-2011
- Inbar M., Ostera H. A., Parica C. A., Remesal M. B., Salani F. M., Environmental assessment of 1991 Hudson volcano eruption ashfall effects on southern Patagonia region, Argentina, 10.1007/bf00767868
- ISONO K., KOMABAYASI M., ONO A., Volcanoes as a Source of Atmospheric Ice Nuclei, 10.1038/183317a0
- Jacobson Mark Z., Fundamentals of Atmospheric Modeling : second Edition, ISBN:9781139165389, 10.1017/cbo9781139165389
- Jones Morgan T., Gislason Sigurður R., Rapid releases of metal salts and nutrients following the deposition of volcanic ash into aqueous environments, 10.1016/j.gca.2008.05.030
- Jones A, Siebert L, Kimberly P, Luhr JF (2006) Earthquakes and eruptions, v. 3.0 (CD-ROM). Smithsonian Institution, Global Volcanism Program, Digital Information Series, GVP-2
- Jones Morgan T., Sparks R. Stephen J., Valdes Paul J., The climatic impact of supervolcanic ash blankets, 10.1007/s00382-007-0248-7
- Jones Sacha Claire, Palaeoenvironmental response to the ∼74 ka Toba ash-fall in the Jurreru and Middle Son valleys in southern and north-central India, 10.1016/j.yqres.2009.11.005
- Karlsdóttir S et al (2012) The 2010 Eyjafjallajokul eruption, Iceland. International Volcanic Ash Task Force IVATF/4-IP/3. Available at http://www.icao.int/safety/meteorology/ivatf/Pages/Information-papers.aspx?meeting=IVATF/4 . Accessed 12 Aug 2012
- Kärcher B (2012) Atmospheric ice formation processes. In: Atmospheric physics: background—methods—trends research topics in aerospace. Springer, Berlin, pp 151–167
- Kawaratani Robert K, Fujita Shin-ichi, Wet deposition of volcanic gases and ash in the vicinity of Mount Sakurajima, 10.1016/0960-1686(90)90057-t
- Kellerer-Pirklbauer Andreas, Farbrot Herman, Etzelmüller Bernd, Permafrost aggradation caused by tephra accumulation over snow-covered surfaces: examples from the Hekla-2000 eruption in Iceland, 10.1002/ppp.596
- Kellman Martin, Hudson John, Sanmugadas Kandiah, Temporal Variability in Atmospheric Nutrient Influx to a Tropical Ecosystem, 10.2307/2387753
- Kennedy Robert A., Ash from Mt St Helens, 10.1038/287581a0
- Kent M., Owen N. W., Dale P., Newnham R. M., Giles T. M., Studies of vegetation burial: a focus for biogeography and biogeomorphology?, 10.1177/030913330102500401
- Kilian Rolf, Biester Harald, Behrmann Jan, Baeza Oscar, Fesq-Martin Martinus, Hohner Miriam, Schimpf Daniel, Friedmann Arne, Mangini Augusto, Millennium-scale volcanic impact on a superhumid and pristine ecosystem, 10.1130/g22605.1
- Kirk, W (1808) The fiery museum, or, The burning mountains : containing authentic accounts of those dreadful eruptions which have so frequently broke out at mounts Vesuvius and Aetna : with a circumstantial narrative of their eruptions in one of which, (at Vesuvius) the town of Ottaiano was nearly reduced to ashes : with every particular relative to those great volcanoes which have so astonished the surrounding nations, and the world. Sussex Press, Lewes. 40 pp.
- Kirkbride Martin P., Dugmore Andrew J., Glaciological response to distal tephra fallout from the 1947 eruption of Hekla, south Iceland, 10.3189/172756503781830575
- Klein JM (1984) Some chemical effects of the Mount St. Helens eruption on selected streams in the State of Washington. US Geological Survey Circular 850-E, p 15
- Koenderink G.H., Brzesowsky R.H., Balkenende A.R., Effect of the initial stages of leaching on the surface of alkaline earth sodium silicate glasses, 10.1016/s0022-3093(99)00704-8
- Kumar P., Sokolik I. N., Nenes A., Measurements of cloud condensation nuclei activity and droplet activation kinetics of fresh unprocessed regional dust samples and minerals, 10.5194/acp-11-3527-2011
- KURENKOV I. I., THE INFLUENCE OF VOLCANIC ASHFALL ON BIOLOGICAL PROCESSES IN A LAKE, 10.4319/lo.1966.11.3.0426
- Kyle Philip R., Jezek Peter A., Compositions of three tephra layers from the byrd station ice core, antarctica, 10.1016/0377-0273(78)90014-8
- Lamparski LL, Nestrick TJ, Cutie SS (1990) The impact on the environment of airborne particulate matter from the eruption of Mount Saint Helens in May 1980. In: Clement R, Kogel R (eds) Emissions from combustion processes: origin, measurement, control. Lewis, Chelsea, p 491
- Lane S J, Gilbert J S, Hilton M, The aerodynamic behaviour of volcanic aggregates, 10.1007/bf00304591
- Langmann B., Zakšek K., Hort M., Duggen S., Volcanic ash as fertiliser for the surface ocean, 10.5194/acp-10-3891-2010
- Lathem T. L., Kumar P., Nenes A., Dufek J., Sokolik I. N., Trail M., Russell A., Hygroscopic properties of volcanic ash : HYGROSCOPOCITY OF VOLCANIC ASH, 10.1029/2011gl047298
- Le Blond Jennifer S., Horwell Claire J., Baxter Peter J., Michnowicz Sabina A. K., Tomatis Maura, Fubini Bice, Delmelle Pierre, Dunster Christina, Patia Herman, Mineralogical analyses and in vitro screening tests for the rapid evaluation of the health hazard of volcanic ash at Rabaul volcano, Papua New Guinea, 10.1007/s00445-010-0382-7
- Le Guern F., Bernard A., Chevrier R. M., Soufrière of guadeloupe 1976–1977 eruption — mass and energy transfer and volcanic health hazards, 10.1007/bf02597694
- Igneous Rocks : A Classification and Glossary of Terms, ISBN:9780511535581, 10.1017/cbo9780511535581
- Lee DB (1996) Effects of the eruptions of Mount St. Helens on physical, chemical and biological characteristics of surface water, ground water, and precipitation in the Western United States. In: US Geological Survey Water-Supply Paper 2438
- Lotter A. F., Birks H. J. B., Zolitschka B., Late-glacial pollen and diatom changes in response to two different environmental perturbations: volcanic eruption and Younger Dryas cooling, 10.1007/bf00682592
- Lowell S., Shields Joan E., Thomas Martin A., Thommes Matthias, Characterization of Porous Solids and Powders: Surface Area, Pore Size and Density, ISBN:9789048166336, 10.1007/978-1-4020-2303-3
- Luhr James F., Carmichael Ian S.E., Varekamp Johan C., The 1982 eruptions of El Chichón Volcano, Chiapas, Mexico: Mineralogy and petrology of the anhydritebearing pumices, 10.1016/0377-0273(84)90057-x
- Lyles Leon, 4. Basic wind erosion processes, 10.1016/0167-8809(88)90010-2
- Macedonio Giovanni, Dobran Flavio, Neri Augusto, Erosion processes in volcanic conduits and application to the AD 79 eruption of Vesuvius, 10.1016/0012-821x(94)90037-x
- MACK R. N., Initial Effects of Ashfall from Mount St. Helens on Vegetation in Eastern Washington and Adjacent Idaho, 10.1126/science.213.4507.537
- Mackowiak C. L., Grossl P. R., Bugbee B. G., Biogeochemistry of Fluoride in a Plant–Solution System, 10.2134/jeq2003.2230
- Mahler R. L., The influence of mount St. Helens volcanic ash on alfalfa growth and nutrient uptake, 10.1080/00103628409367487
- Major Jon J., Yamakoshi Takao, Decadal-scale change of infiltration characteristics of a tephra-mantled hillslope at Mount St Helens, Washington, 10.1002/hyp.5863
- Malmer N (1993) Mineral nutrients in vegetation and surface layers of Sphagnum-dominated peat-forming systems. Adv Bryol 5:223–248
- Mandeville CW, Langstaff M (2007) Geochemistry of apatite in climactic and pre-climactic tephra from Mt. Mazama, Crater Lake, Oregon. American Geophysical Union, Fall Meeting, 2007, San Francisco, V32C-01
- Manville V., Hodgson K. A., Houghton B. F., Keys J. R. (H.), White J. D. L., Tephra, snow and water: complex sedimentary responses at an active snow-capped stratovolcano, Ruapehu, New Zealand, 10.1007/s004450000096
- Manville V., Németh K., Kano K., Source to sink: A review of three decades of progress in the understanding of volcaniclastic processes, deposits, and hazards, 10.1016/j.sedgeo.2009.04.022
- Manville Vern, Newton Erin H., White James D.L., Fluvial responses to volcanism: resedimentation of the 1800a Taupo ignimbrite eruption in the Rangitaiki River catchment, North Island, New Zealand, 10.1016/j.geomorph.2004.07.007
- Martin R.S., Watt S.F.L., Pyle D.M., Mather T.A., Matthews N.E., Georg R.B., Day J.A., Fairhead T., Witt M.L.I., Quayle B.M., Environmental effects of ashfall in Argentina from the 2008 Chaitén volcanic eruption, 10.1016/j.jvolgeores.2009.04.010
- Mason B. J., Maybank J., Ice-nucleating properties of some natural mineral dusts, 10.1002/qj.49708436104
- Mass Clifford, Robock Alan, The Short-Term Influence of the Mount St. Helens Volcanic Eruption on Surface Temperature in the Northwest United States, 10.1175/1520-0493(1982)110<0614:tstiot>2.0.co;2
- McCormick M. Patrick, Thomason Larry W., Trepte Charles R., Atmospheric effects of the Mt Pinatubo eruption, 10.1038/373399a0
- McDaniel PA, Wilson MA (2007) Physical and chemical characteristics of ash-influenced soils of inland northwest forests. USDA For Serv Proc RMRS-P-44:31–45
- McGuire WJ (2003) Volcano instability and lateral collapse. Revista 1:33–45
- McKnight Diane M., Feder Gerald L., Stiles Eric A., Toxicity of Volcanic-Ash Leachate to a Blue-Green Alga. Results Of A Preliminary Bioassay Experiment, 10.1021/es00085a606
- Michel A.E., Usher C.R., Grassian V.H., Reactive uptake of ozone on mineral oxides and mineral dusts, 10.1016/s1352-2310(03)00319-4
- Miller CF, Hong L (1966) Operation Ceniza-Arena: the retention of fallout particles from Volcan Irazu (Costa Rica) by plants and people. Part 1. Stanford Research Institute, Menlo Park, p 374
- Miserendino María Laura, Archangelsky Miguel, Brand Cecilia, Epele Luis Beltrán, Environmental changes and macroinvertebrate responses in Patagonian streams (Argentina) to ashfall from the Chaitén Volcano (May 2008), 10.1016/j.scitotenv.2012.02.054
- Morrissey M, Zimanowski B, Wohletz K, Buettner R (2000) Phreatomagmatic fragmentation. In: Sigurdsson H, Houghton B, McNutt S, Rymer H, Stix J (eds) Encyclopedia of volcanoes. Academic, San Diego, pp 431–445
- Murata K. J., Dondoli C., Saenz R., The 1963–65 eruption of Irazú volcano, Costa Rica (the period of March 1963 to October 1964), 10.1007/bf02597194
- Nayar S., Goh B.P.L., Chou L.M., Environmental impact of heavy metals from dredged and resuspended sediments on phytoplankton and bacteria assessed in in situ mesocosms, 10.1016/j.ecoenv.2003.08.015
- Nogami Kenji, Hirabayashi Jun-ichi, Ohba Takeshi, Ossaka Joyo, Yamamoto Masahiro, Akagi Seishi, Ozawa Takejiro, Yoshida Minoru, Temporal variations in the constituents of volcanic ash and adherent water-soluble components in the Unzen Fugendake eruption during 1990–1991, 10.1186/bf03352400
- Ohba T., Kitade Y., Subvolcanic hydrothermal systems: Implications from hydrothermal minerals in hydrovolcanic ash, 10.1016/j.jvolgeores.2005.02.002
- Olgun Nazlı, Duggen Svend, Croot Peter Leslie, Delmelle Pierre, Dietze Heiner, Schacht Ulrike, Óskarsson Niels, Siebe Claus, Auer Andreas, Garbe-Schönberg Dieter, Surface ocean iron fertilization: The role of airborne volcanic ash from subduction zone and hot spot volcanoes and related iron fluxes into the Pacific Ocean : VOLCANIC ASH-AN ATMOSPHERIC FE SOURCE, 10.1029/2009gb003761
- Ort M.H., Elson M.D., Anderson K.C., Duffield W.A., Hooten J.A., Champion D.E., Waring G., Effects of scoria-cone eruptions upon nearby human communities, 10.1130/b26061.1
- Óskarsson Niels, The interaction between volcanic gases and tephra: Fluorine adhering to tephra of the 1970 hekla eruption, 10.1016/0377-0273(80)90107-9
- Parfitt Elisabeth A., A study of clast size distribution, ash deposition and fragmentation in a Hawaiian-style volcanic eruption, 10.1016/s0377-0273(98)00042-0
- Paul A., Chemistry of Glasses, ISBN:9789400959200, 10.1007/978-94-009-5918-7
- Paytan A., Mackey K. R. M., Chen Y., Lima I. D., Doney S. C., Mahowald N., Labiosa R., Post A. F., Toxicity of atmospheric aerosols on marine phytoplankton, 10.1073/pnas.0811486106
- Pearson Charlotte L., Dale Darren S., Brewer Peter W., Kuniholm Peter I., Lipton Jeffrey, Manning Sturt W., Dendrochemical analysis of a tree-ring growth anomaly associated with the Late Bronze Age eruption of Thera, 10.1016/j.jas.2009.01.009
- PERCY K. E., BAKER E. A., Effects of simulated acid rain on leaf wettability, rain retention and uptake of some inorganic ions, 10.1111/j.1469-8137.1988.tb00206.x
- Pereira Wilfred E., Rostad Colleen E., Taylor Howard E., Klein John M., Characterization of organic contaminants in environmental samples associated with Mount St. Helens 1980 volcanic eruption, 10.1021/es00101a005
- Peters L. N., Witherspoon J. P, Retention of 44-88 [mu] Simulated Fallout Particles by Grasses : , 10.1097/00004032-197203000-00008
- Piccoli P. M., Candela P. A., Apatite in Igneous Systems, 10.2138/rmg.2002.48.6
- Pickering W.F., The mobility of soluble fluoride in soils, 10.1016/0143-148x(85)90004-7
- Pye KT, Tsoar H (2009) Aeolian sand and sand dunes. Springer-Verlag, Berlin, p 458
- Quigg Antonietta, Reinfelder John R., Fisher Nicholas S., Copper uptake kinetics in diverse marine phytoplankton, 10.4319/lo.2006.51.2.0893
- Rammlmair D (2002) Hardpan formation on mining residuals. In: Merkel BJ, Planer-Friedrich B, Wolkersdorfer C (eds) Uranium in the Aquatic Environment. Springer-Verlag, Berlin, pp 177–186
- Rhodes Jonathon J., Armstrong Richard L., Warren Stephen G., Mode of Formation of “Ablation Hollows” Controlled by Dirt Content of Snow, 10.1017/s0022143000008601
- RIGG G. B., THE EFFECTS OF THE KATMAI ERUPTION ON MARINE VEGETATION, 10.1126/science.40.1032.509
- Risacher François, Alonso Hugo, Geochemistry of ash leachates from the 1993 Lascar eruption, northern Chile. Implication for recycling of ancient evaporites, 10.1016/s0377-0273(01)00198-6
- Rogers N, Hawkesworth C (2000) Composition of magmas. In: Sigurdsson H, Houghton B, McNutt S, Rymer H, Stix J (eds) Encyclopedia of Volcanoes. Academic Press, London, pp 115–131
- Rose W. I., Bonis S., Stoiber R. E., Keller M., Bickford T., Studies of volcanic ash from two recent Central American eruptions, 10.1007/bf02597633
- Rose William I., Scavenging of volcanic aerosol by ash: Atmospheric and volcanologic implications, 10.1130/0091-7613(1977)5<621:sovaba>2.0.co;2
- Rose William I., Bluth Gregg J. S., Schneider David J., Ernst Gerald G. J., Riley Colleen M., Henderson Lydia J., McGimsey Robert G., Observations of Volcanic Clouds in Their First Few Days of Atmospheric Residence: The 1992 Eruptions of Crater Peak, Mount Spurr Volcano, Alaska, 10.1086/323189
- Rose W. I., Delene D. J., Schneider D. J., Bluth G. J. S., Krueger A. J., Sprod I., McKee C., Davies H. L., Ernst G. G. J., Ice in the 1994 Rabaul eruption cloud: implications for volcano hazard and atmospheric effects, 10.1038/375477a0
- Rose W.I., Durant A.J., Fine ash content of explosive eruptions, 10.1016/j.jvolgeores.2009.01.010
- Rosen CJ, Eliason R (2005) Nutrient management for commercial fruit & vegetable crops in Minnesota. http://www.extension.umn.edu/distribution/cropsystems/dc5886.html . Accessed 1 July 2010
- Rossi Michel J., Heterogeneous Reactions on Salts, 10.1021/cr020507n
- Rubasinghege Gayan, Elzey Sherrie, Baltrusaitis Jonas, Jayaweera Pradeep M., Grassian Vicki H., Reactions on Atmospheric Dust Particles: Surface Photochemistry and Size-Dependent Nanoscale Redox Chemistry, 10.1021/jz100371d
- Ruggieri F., Fernandez-Turiel J.L., Saavedra J., Gimeno D., Polanco E., Amigo A., Galindo G., Caselli A., Contribution of volcanic ashes to the regional geochemical balance: The 2008 eruption of Chaitén volcano, Southern Chile, 10.1016/j.scitotenv.2012.03.011
- Sarmiento Jorge L., Atmospheric CO2 stalled, 10.1038/365697a0
- SCHERBATSKOY TIMOTHY, TYREE MELVIN T., Kinetics of exchange of ions between artificial precipitation and maple leaf surfaces, 10.1111/j.1469-8137.1990.tb00442.x
- Scholze H (1990) Glass. Nature, Structure, and Properties. Springer-Verlag, London, p 454
- Schön JH (2011) Physical Properties of Rocks: A Workbook. Elsevier, Oxford, p 481
- Schulte PJ, Teskey RO, Hinckley TM, Stevens RG, Leslie DA (1985) The effect of tephra deposition and planting treatment on soil oxygen levels and water relations of newly planted seedlings. Forest Sci 31(1):109–116
- Schumm S. A., Rea David K., Sediment yield from disturbed earth systems, 10.1130/0091-7613(1995)023<0391:syfdes>2.3.co;2
- Seifert P., Ansmann A., Groß S., Freudenthaler V., Heinold B., Hiebsch A., Mattis I., Schmidt J., Schnell F., Tesche M., Wandinger U., Wiegner M., Ice formation in ash-influenced clouds after the eruption of the Eyjafjallajökull volcano in April 2010, 10.1029/2011jd015702
- Self S., The effects and consequences of very large explosive volcanic eruptions, 10.1098/rsta.2006.1814
- Seymour V. A., Hinckley T. M., Morikawa Y., Franklin J. F., Foliage damage in coniferous trees following volcanic ashfall from Mt. St. Helens, 10.1007/bf00378859
- Sharp B (1890) An Account of the Vincelonian Volcano. Proc Acad Nat Sci Phila 42:289–295
- Shepherd Tom, Wynne Griffiths D., The effects of stress on plant cuticular waxes : Tansley review, 10.1111/j.1469-8137.2006.01826.x
- Shipley S, Sarna-Wojciki AM (1982) Distribution, thickness, and mass of late Pleistocene and Holocene tephra from major volcanoes in the northwestern United States: a preliminary assessment of hazards from volcanic ejecta to nuclear reactors in the Pacific Northwest. United States Geological Survey Miscellaneous Field Studies Map MF-1435
- Shoji S, Nanzyo M, Dahlgren RA (1993) Volcanic ash soils. Genesis, Properties and Utilization. Elsevier, Amsterdam, p 288
- Siebert L, Simkin T (2002) Volcanoes of the World: an Illustrated Catalog of Holocene Volcanoes and their Eruptions. Smithsonian Institution, Global Volcanism Program Digital Information Series, GVP-3, ( http://www.volcano.si.edu/world/ ). Accessed 6 Aug 2012
- SIEGEL B. Z., SIEGEL S. M., Mercury Content of Equisetum Plants Around Mount St. Helens One Year After the Major Eruption, 10.1126/science.216.4543.292
- Skidmore EL, Hagen LJ, Armbrust DV, Durar AA, Fryrear DW, Potter KN, Wagner LE, Zobeck TM (1994) Methods for investigating basic processes and conditions affecting wind erosion. In: Lal R (ed) Soil Erosion Research Methods. Soil and Water Conservation Society, AnkenyIA, pp 295–330
- Skille JM, Falter CM, Kendra WR, Schuchard KM (1983) The fate, distribution and limnological effects of volcanic tephra in the St. Joe and Coeur D'Alene river deltas of Lake Coeur D'Alene, Idaho. In: Idaho Water and Energy Resources Research Institute Completion Report. Moscow, p 156
- Smith D. B., Zielinski R. A., Taylor H. E., Sawyer M. B., Leaching characteristics of ash from the May 18, 1980, eruption of Mount St. Helens volcano, Washington, 10.1007/bf02597580
- Smith David B, Zielinski Robert A, Rose W.I, Leachability of uranium and other elements from freshly erupted volcanic ash, 10.1016/0377-0273(82)90017-8
- Smith David B., Zielinski Robert A., Rose W. I., Huebert B. J., Water-soluble material on aerosols collected within volcanic eruption clouds, 10.1029/jc087ic07p04963
- Smith William H., Staskawicz Brian J., Removal of atmospheric particles by leaves and twigs of urban trees: Some preliminary observations and assessment of research needs, 10.1007/bf01865859
- Sneva F (1982) Mt. St. Helens ash: considerations on its fallout on rangelands. Special Report 650. Oregon State University Agricultural Station, Corvallis, pp 1–29
- Sparks R S J, Bursik M I, Ablay G J, Thomas R M E, Carey S N, Sedimentation of tephra by volcanic plumes. Part 2: controls on thickness and grain-size variations of tephra fall deposits, 10.1007/bf00430779
- Spence R., Kelman I., Brown A., Toyos G., Purser D., Baxter P., Residential building and occupant vulnerability to pyroclastic density currents in explosive eruptions, 10.5194/nhess-7-219-2007
- Spirakis Charles S., Possible effect of readily available iron in volcanic ash on the carbon to sulfur ratio in lower Paleozoic normal marine sediments and implications for atmospheric oxygen, 10.1130/0091-7613(1989)017<0599:peorai>2.3.co;2
- Steinke I., Möhler O., Kiselev A., Niemand M., Saathoff H., Schnaiter M., Skrotzki J., Hoose C., Leisner T., Ice nucleation properties of fine ash particles from the Eyjafjallajökull eruption in April 2010, 10.5194/acpd-11-17665-2011
- Stevens D.P., McLaughlin M.J., Alston A.M., 10.1023/a:1004224526067
- Stout John E., A method for establishing the critical threshold for aeolian transport in the field, 10.1002/esp.1079
- Stracquadanio Milena, Dinelli Enrico, Trombini Claudio, Role of volcanic dust in the atmospheric transport and deposition of polycyclic aromatic hydrocarbons and mercury, 10.1039/b308587b
- Sunda WG (1989) Trace metal interactions with marine phytoplankton. Biol Oceanogr 6(5–6):411–442
- Swiader JM (2002) Micronutrient Fertilizer Recommendations for Commercial and Home-Garden Vegetables. http://www.nres.uiuc.edu/ . Accessed 01 Dec 2010
- Tagata S, Yamakoshi T, Doi Y, Sasahara K, Nishimoto H, Nagura H (2005) Post-eruption sediment budget of a small catchment on the Miyakejima volcano, Japan. Sediment Budg 291:37–45
- Takizawa Y, Muto H, Asada S (1994) Dioxins in dust fall and volcanic ash samples from the active volcanoes Fugendake and Sakurajima. Organohalogen Compd 20:359–362
- TAKMAZ-NISANCIOGLU S., DAVISON A. W., Effects of aluminium on fluoride uptake by plants, 10.1111/j.1469-8137.1988.tb03702.x
- TAYLOR PAUL S., STOIBER RICHARD E., Soluble Material on Ash from Active Central American Volcanoes, 10.1130/0016-7606(1973)84<1031:smoafa>2.0.co;2
- Tejedor M., Jiménez C., Dı́az F., Volcanic materials as mulches for water conservation, 10.1016/s0016-7061(03)00129-0
- TELFORD R, Lacustrine responses to tephra deposition: examples from Mexico, 10.1016/j.quascirev.2004.03.014
- Textor Christiane, Injection of gases into the stratosphere by explosive volcanic eruptions, 10.1029/2002jd002987
- THORARINSSON SICURDUR, On the Damage Caused by Volcanic Eruptions with Special Reference to Tephra and Gases, Volcanic Activity and Human Ecology (1979) ISBN:9780126391206 p.125-159, 10.1016/b978-0-12-639120-6.50010-8
- Thorarinsson S., Sigvaldason G. E., The Hekla Eruption of 1970, 10.1007/bf02596870
- Thorsteinsson Throstur, Jóhannsson Thorsteinn, Stohl Andreas, Kristiansen Nina I., High levels of particulate matter in Iceland due to direct ash emissions by the Eyjafjallajökull eruption and resuspension of deposited ash : PARTICULATE MATTER FROM EYJAFJALLAJÖKULL, 10.1029/2011jb008756
- Tsuyuzaki Shiro, Vegetation recovery patterns in early volcanic succession, 10.1007/bf02344349
- Usher Courtney R., Michel Amy E., Grassian Vicki H., Reactions on Mineral Dust, 10.1021/cr020657y
- Vallance JW (2000) Lahars. In: Sigurdsson H, Houghton B, McNutt S, Rymer H, Stix J (eds) Encyclopedia of Volcanoes. Academic Press, London, pp 601–616
- Varekamp Johan C., Luhr James F., Prestegaard Karen L., The 1982 eruptions of El Chichón Volcano (Chiapas, Mexico): Character of the eruptions, ash-fall deposits, and gasphase, 10.1016/0377-0273(84)90056-8
- Veneklaas E. J., Nutrient Fluxes in Bulk Precipitation and Throughfall in Two Montane Tropical Rain Forests, Colombia, 10.2307/2260947
- Viramonte J (1987) Lascar. Scientific Event Alert Network (SEAN) Bull 12(5)
- Vogt K, Antos JA, Zobel DB, Dahlgren RA, Hinckley TM, Erickson H, Hemstrom M (1989) Effects of tephra on ecosystems in the airfall area of the Montane Forest Zone. In: Swanson FJ (ed) Response of Ecosystems to the 1980 Eruptions of Mount St. Helens. Princeton University Press, In press
- Wall-Palmer Deborah, Jones Morgan T., Hart Malcolm B., Fisher Jodie K., Smart Christopher W., Hembury Deborah J., Palmer Martin R., Fones Gary R., Explosive volcanism as a cause for mass mortality of pteropods, 10.1016/j.margeo.2011.03.001
- Wang Bronwen, Michaelson Gary, Ping Chien-Lu, Plumlee Geoffrey, Hageman Philip, Characterization of Pyroclastic Deposits and Pre-eruptive Soils following the 2008 Eruption of Kasatochi Island Volcano, Alaska, 10.1657/1938-4246-42.3.276
- Warren Peter, Archaeology: Absolute dating of the Bronze Age eruption of Thera (Santorini), 10.1038/308492a0
- Watson Andrew J., Volcanic iron, CO2, ocean productivity and climate, 10.1038/385587b0
- Watt SFL, Pyle DM, Mather TA, Martin RS, Matthews NE (2009) Fallout and distribution of volcanic ash over Argentina following the May 2008 explosive eruption of Chaitén, Chile. J Geophys Res 114(B04207):10.1029/2008JB006219
- Fluorides in the environment: effects on plants and animals, ISBN:9780851996837, 10.1079/9780851996837.0000
- Wells Colin, Huckerby Elizabeth, Hall Valerie, Mid- and late-Holocene vegetation history and tephra studies at Fenton Cottage, Lancashire, U.K., 10.1007/bf01372568
- White Art F, Peterson Maria L, Hochella Michael F, Electrochemistry and dissolution kinetics of magnetite and ilmenite, 10.1016/0016-7037(94)90420-0
- White JDL, Houghton B (2006) Primary volcaniclastic rocks. Geology 34(8). doi: 10.1130/G22346.22341
- Wiesner Martin G., Wang Yubo, Zheng Lianfu, Fallout of volcanic ash to the deep South China Sea induced by the 1991 eruption of Mount Pinatubo (Philippines), 10.1130/0091-7613(1995)023<0885:fovatt>2.3.co;2
- Wilcox RE (1959) Some effects of recent volcanic ash falls: with especial reference to Alaska. U.S. Geol Surv Bull 24(9):409–476
- Wilson T. M., Cole J. W., Stewart C., Cronin S. J., Johnston D. M., Ash storms: impacts of wind-remobilised volcanic ash on rural communities and agriculture following the 1991 Hudson eruption, southern Patagonia, Chile, 10.1007/s00445-010-0396-1
- Wilson Thomas, Cole Jim, Cronin Shane, Stewart Carol, Johnston David, Impacts on agriculture following the 1991 eruption of Vulcan Hudson, Patagonia: lessons for recovery, 10.1007/s11069-010-9604-8
- Wilson Thomas M., Stewart Carol, Sword-Daniels Victoria, Leonard Graham S., Johnston David M., Cole Jim W., Wardman Johnny, Wilson Grant, Barnard Scott T., Volcanic ash impacts on critical infrastructure, 10.1016/j.pce.2011.06.006
- Witham C.S., Oppenheimer C., Horwell C.J., Volcanic ash-leachates: a review and recommendations for sampling methods, 10.1016/j.jvolgeores.2004.11.010
- Witherspoon J. P., Taylor F. G., Retention of a Fallout Simulant Containing 134Cs by Pine and Oak Trees : , 10.1097/00004032-196912000-00007
- Wohletz Kenneth H., Explosive magma-water interactions: Thermodynamics, explosion mechanisms, and field studies, 10.1007/bf01081754
- Wolejko L, Ito K (1986) Mires of Japan in relation to mire zones, volcanic activity and water chemistry. Japan J Ecol 35(5):575–586
- Wong H.K.T, Gauthier A, Nriagu J.O, Dispersion and toxicity of metals from abandoned gold mine tailings at Goldenville, Nova Scotia, Canada, 10.1016/s0048-9697(99)00021-2
- Worcester DC (1912) Taal Volcano and its recent destructive eruption. Natl Geogr Mag 23(4):313–367
- Yanagi T (2000) Coastal Oceanography. Kluwer Academic Publishers, Dordrecht, p 172
- Zielinski G. A., Mayewski P. A., Meeker L. D., Whitlow S., Twickler M. S., Morrison M., Meese D. A., Gow A. J., Alley R. B., Record of Volcanism Since 7000 B.C. from the GISP2 Greenland Ice Core and Implications for the Volcano-Climate System, 10.1126/science.264.5161.948
- Zimanowski Bernd, Wohletz Kenneth, Dellino Pierfrancesco, Büttner Ralf, The volcanic ash problem, 10.1016/s0377-0273(02)00471-7
- Zobel Donald B., Antos Joseph A., Composition of Rhizomes of Forest Herbaceous Plants in Relation to Morphology, Ecology, and Burial by Tephra, 10.1086/337680
- Zobel Donald B., Antos Joseph A., Survival of Plants Buried for Eight Growing Seasons by Volcanic Tephra, 10.2307/1940777
Bibliographic reference |
Ayris, Paul ; Delmelle, Pierre. The immediate environmental effects of tephra emission. In: Bulletin of Volcanology, no. 74, p. 1905-1936 (2012) |
Permanent URL |
http://hdl.handle.net/2078.1/121290 |