| Poster table |
Authors |
|
Title |
| 1 |
Fitzpatrick, R.W., Baker, A.K.M., Shand, P., Merry, R.H., Grealish, G.
& Mosley, L.M. |
Australia |
New approaches to understanding pedogenic pathways that contribute to
evolution models for predicting soil change across time and space in inland Acid Sulfate Soils |
| 2 |
Edén, P., Rankonen, E., Auri, J., Yli-Halla, M., Österholm, P. Beucher, A., &
Rosendahl, R. |
Finland |
Definition and classification of Finnish Acid Sulfate Soils |
| 3 |
Akpan-Idiok, A. U. & Esu, I.E. |
Nigeria |
Characteristics, Uses and Management of Potential Acid Sulfate Soils
for Rice Production in Niger Delta Region of Nigeria |
| 4 |
Pousette, K. & Knutsson, S. |
Sweden |
Study of a sulfide soil deposit at a road construction in Sunderbyn,
near Luleå in the north of Sweden |
| 5 |
Orndorff, Z.W. & Daniels, W.L. |
USA |
Fifteen years of mapping, characterizing and remediating acid sulfate
soils in Virginia, United States |
| 6 |
Lahdenperä, A-M. & Ikonen, A.T.K. |
Finland |
Sea bottom sediments developing into future soils at Olkiluoto, a
spent nuclear fuel repository site |
| 7 |
Aroka, N., Norrlin, J., Sohlenius, G. Uhlbäck, J. & Wåhlén,
H. |
Sweden |
Identification and Classification of Acid sulfate Soils in northern
Sweden |
| 8 |
Taskinen, J., Berg, P., Saarinen-Valta, M., Välilä, S., Mäenpää, E.,
Myllynen, K. & Pakkala, J. |
Finland |
Sensitivity of the endangered freshwater pearl mussel, Margaritifera
margaritifera, to pH, iron and aluminium in an acid sulfate soil river |
| 9 |
Hudd, R., Toivonen, J. & Österholm, P. |
Finland |
Larval crash in a coastal burbot (Lota lota L.) stock caused by acid
sulfate runoff in an embanked archipelago and estuary area in the Baltic Sea |
| 10 |
Elisa, A.A., Shamshuddin, J. , Fauziah, C.I. & Roslan,
I. |
Malaysia |
Utilization of an acid sulfate soil in Malaysia for rice
cultivation |
| 11 |
Epie K.E., Virtanen, S. , Lammi, A., Simojoki, A. & Stoddard,
F. |
Finland |
High moisture acid sulfate soil effects on reed canary grass |
| 12 |
Suomela, R., Yli-Halla, M., Auri, J. & Joki-Tokola, E. |
Finland |
Subsurface Irrigation and Controlled Drainage in Reducing the Acid
Discharge to Siikajoki River in Northern Ostrobothnia, Finland |
| 13 |
Rautio, L. M., Sierla, J., Keskisarja V., Nyroos, H. & Sevola,
P., |
Finland |
Guidelines for Mitigation of the Negative Effects of Acid Sulfate
Soils until the year 2020 – a Finnish National Strategy |
| 14 |
Westberg, V., Mäensivu, M., Teppo, A., Riihimäki, J., Rautio, L. M.,
Sevola, P., Koskenniemi, E, Storberg, K.-E., Bonde, A. & Vuori, K.-M. |
Finland |
Acid sulfate Soils as a Dilemma for Reaching Good Ecological Status in
Surface Waters |
| 15 |
Mulvey P. & Stuckey M., |
Indonesia |
Oxidation without neutralisation can be managed – providing you
control the rate.’ Broad-acre agricultural development on acid sulfate soil in south-east Asia
(Sumatra, Indonesia) |
| 16 |
Seaman, R. |
Australia |
Consequences of reduced water flows to the Lower Murray region |
| 17 |
Wichmann, A. & Ovaskainen, J. |
Finland |
Peat production on sulfide soil – Case Linnunsuo in Eastern
Finland |
| 18 |
Saarinen, T., Mohammadighavam, S., Marttila, H. & Kløve, B. |
Finland |
Impacts of peatland forestry ditch maintaining operation on runoff
water quality derived from soil sulfide-bearing sediments - how to avoid acid surges? |
| 19 |
Tertsunen, J., Tammela, S., Tuohino, J., Saukkoriipi, J., Marttila,
H., Heikkinen, K., Martinmäki, K. & Yrjänä, T. |
Finland |
Developing a method to decrease acidity and concentrations of soluble
metals in surface waters originating from organic acid or sulfate rich drainage areas |
| 20 |
Yu, C.X., Virtasalo, J., Peltola, P., Österholm, P., Ojala, A. & Åström,
M. |
Finland |
Enrichment and speciation of metals in estuarine sediments affected by acid
sulfate soils in Western Finland |
| 21 |
Boman, A., Åström, M.E. & Öhlander, B. |
Sweden |
Can Zn isotopes be used for tracing acid sulfate soil discharge? |
| 22 |
Yvanes-Giuliani Y., Fink D., Rose J., Waite T.D. & Collins,
R.N. |
Australia |
Labile and Exchangeable metal concentrations in Australian coastal
acid sulfate soils: mechanisms controlling metal mobility |
| 23 |
Rosendahl, R., Lall, K.-E., Engblom, S., Stén, P. & Österholm,
P. |
Finland |
The Risöfladan Experimental Field for Chemical Precision Treatment of
Acid sulfate Soils |
| 24 |
Hopgood, M.J. |
Sweden |
Environmental impact of an ASS landfill on the chemical properties of
a recipient river |
| 25 |
Autiola M., Hakanen T. , Kaarakainen V., Lindroos N., Mäkelä, A. &
Ratia, K. |
Finland |
Excavation practices in sulfide clay areas, in project Highway No. 8
Sepänkylä bypass Vaasa-Mustasaari |
| 26 |
Stroud, J.L. & Collins, R.N. |
Australia |
Arsenic and trace metals in acid sulfate environments |
| 27 |
Turunen, M. & Nieminen, T.M. |
Finland |
Speciation of trace metals in soil solution of an acid sulfate forest
soil by DGT method |
| 28 |
Eriksson, Lars G |
Sweden |
Leaching test for characterization of Sulfur Rich Soils |
| 29 |
Stén, P., Engblom, S., Heikkilä, S., Andersson, T. & Nowak,
P. |
Finland |
Column Leaching Experiments on Acid sulfate Soils from the Risöfladan
Experimental Field (Vasa, Finland) |
| 30 |
Saukkoriipi, J., Österholm, P., Heikkinen, K., Postila, H.,
Kunnas-Hiltunen, S., Karppinen, A., Wichmann, A., Klöve, B. & Ihme, R. |
Finland |
Management of Sulfide induced Acidity in Peat Harvesting (SuHE);
Methods for predicting and managing acidic loads to waters from peat extraction areas |
