nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
1 |
A comment on “The distribution and mobility of geogenic molybdenum and arsenic in a limestone aquifer matrix” by Thomas Pichler and Ali Mozaffari
|
Hansard, Stuart Paul |
|
2017 |
77 |
C |
p. 213-214 2 p. |
artikel |
2 |
A predictive risk model of groundwater arsenic contamination in China applied to the Huai River Basin, with a focus on the region’s cluster of elevated cancer mortalities
|
Li, Yongfang |
|
2017 |
77 |
C |
p. 178-183 6 p. |
artikel |
3 |
A study on soil-environmental quality criteria and standards of arsenic
|
Zhou, Qixing |
|
2017 |
77 |
C |
p. 158-166 9 p. |
artikel |
4 |
Comparative study on the hydrogeochemical environment at the major drinking water based arsenism areas
|
Tang, Jie |
|
2017 |
77 |
C |
p. 62-67 6 p. |
artikel |
5 |
Contrasting dissolved organic matter quality in groundwater in Holocene and Pleistocene aquifers and implications for influencing arsenic mobility
|
Kulkarni, Harshad V. |
|
2017 |
77 |
C |
p. 194-205 12 p. |
artikel |
6 |
Distribution of groundwater arsenic in Xinjiang, P.R. China
|
Zhou, Yinzhu |
|
2017 |
77 |
C |
p. 116-125 10 p. |
artikel |
7 |
Editorial SI Environmental and Health Roles of Geogenic Arsenic
|
|
|
2017 |
77 |
C |
p. 1-3 3 p. |
artikel |
8 |
Effective treatment of arsenic-bearing water by a layered double metal hydroxide: Iowaite
|
Guo, Qinghai |
|
2017 |
77 |
C |
p. 206-212 7 p. |
artikel |
9 |
Evaluation of arsenic sorption and mobility in stream sediment and hot spring deposit in three drainages of the Tibetan Plateau
|
Zhang, Yinfeng |
|
2017 |
77 |
C |
p. 89-101 13 p. |
artikel |
10 |
Evidence of decoupling between arsenic and phosphate in shallow groundwater of Bangladesh and potential implications
|
Aziz, Z. |
|
2017 |
77 |
C |
p. 167-177 11 p. |
artikel |
11 |
Geogenic As and Mo groundwater contamination caused by an abundance of domestic supply wells
|
Pichler, Thomas |
|
2017 |
77 |
C |
p. 68-79 12 p. |
artikel |
12 |
Hydrothermal alteration of arsenopyrite by acidic solutions
|
Hu, Xiaoxiao |
|
2017 |
77 |
C |
p. 102-115 14 p. |
artikel |
13 |
Manganese redox buffering limits arsenic release from contaminated sediments, Union Lake, New Jersey
|
Keimowitz, Alison R. |
|
2017 |
77 |
C |
p. 24-30 7 p. |
artikel |
14 |
Migration and transformation of arsenic: Contamination control and remediation in realgar mining areas
|
Wu, Yang |
|
2017 |
77 |
C |
p. 44-51 8 p. |
artikel |
15 |
Mineralogy and geochemistry affecting arsenic solubility in sediment profiles from the shallow basin-fill aquifer of Cache Valley Basin, Utah
|
Meng, Xianyu |
|
2017 |
77 |
C |
p. 126-141 16 p. |
artikel |
16 |
Mine waste acidic potential and distribution of antimony and arsenic in waters of the Xikuangshan mine, China
|
Zhou, Jianwei |
|
2017 |
77 |
C |
p. 52-61 10 p. |
artikel |
17 |
On the distribution and speciation of arsenic in the soil-plant-system of a rice field in West-Bengal, India: A μ-synchrotron techniques based case study
|
Kramar, U. |
|
2017 |
77 |
C |
p. 4-14 11 p. |
artikel |
18 |
On the scalability of hydrogeochemical factors controlling arsenic mobility in three major inland basins of P.R. China
|
Guo, Huaming |
|
2017 |
77 |
C |
p. 15-23 9 p. |
artikel |
19 |
Origin and availability of organic matter leading to arsenic mobilisation in aquifers of the Red River Delta, Vietnam
|
Eiche, Elisabeth |
|
2017 |
77 |
C |
p. 184-193 10 p. |
artikel |
20 |
Reply to a comment on “The distribution and mobility of geogenic molybdenum and arsenic in a limestone aquifer matrix”
|
Pichler, Thomas |
|
2017 |
77 |
C |
p. 215-218 4 p. |
artikel |
21 |
Reversible adsorption and flushing of arsenic in a shallow, Holocene aquifer of Bangladesh
|
Radloff, Kathleen A. |
|
2017 |
77 |
C |
p. 142-157 16 p. |
artikel |
22 |
Review of arsenic geochemical characteristics and its significance on arsenic pollution studies in karst groundwater, Southwest China
|
Zhang, Liankai |
|
2017 |
77 |
C |
p. 80-88 9 p. |
artikel |
23 |
Role of sulfur redox cycling on arsenic mobilization in aquifers of Datong Basin, northern China
|
Pi, Kunfu |
|
2017 |
77 |
C |
p. 31-43 13 p. |
artikel |