Differences in selenium concentration and bioavailability between paddy and dryland soils of China: A study based on literature collection and field sampling.

[1]  Qiaoyi Huang,et al.  Comparation of Se accumulation and distribution of two rice (Oryza sativa L.) cultivars with high- and low- Se efficiency as affected by exogenous application of selenite , 2022, Journal of Cereal Science.

[2]  D. Liang,et al.  Effects of soil moisture on aging of exogenous selenate in three different soils and mechanisms , 2021 .

[3]  Y. Kuzyakov,et al.  Contrasting pathways of carbon sequestration in paddy and upland soils , 2021, Global change biology.

[4]  D. Liang,et al.  Advances in the evaluation of selenium bioavailabilityin soil-plant system , 2021, Chinese Science Bulletin.

[5]  D. Liang,et al.  Selenium bioavailability in soil-wheat system and its dominant influential factors: A field study in Shaanxi province, China. , 2021, The Science of the total environment.

[6]  Xuefei Mao,et al.  Benefit-risk assessment of dietary selenium and its associated metals intake in China (2017-2019): Is current selenium-rich agro-food safe enough? , 2020, Journal of hazardous materials.

[7]  D. Liang,et al.  Assessing the potential availability of selenium in the soil-plant system with manure application using diffusive gradients in thin-films technique (DGT) and DOM-Se fractions extracted by selective extractions. , 2020, The Science of the total environment.

[8]  Jinxi Song,et al.  Effects of land use on slope runoff and soil loss in the Loess Plateau of China: A meta-analysis. , 2020, The Science of the total environment.

[9]  F. dalla Vecchia,et al.  Selenium biofortification in the 21st century: status and challenges for healthy human nutrition , 2020, Plant and Soil.

[10]  N. Yamaji,et al.  Plant Nutrition for Human Nutrition: Hints from Rice Research and Future Perspectives. , 2020, Molecular plant.

[11]  X. Su,et al.  The origin of soil selenium in a typical agricultural area in Hamatong River Basin, Sanjiang Plain, China , 2020 .

[12]  Hao Chen,et al.  Impact of land use/land cover change on the topsoil selenium concentration and its potential bioavailability in a karst area of southwest China. , 2019, The Science of the total environment.

[13]  Jianxin Fan,et al.  Effect of humic acid on Se and Fe transformations in soil during waterlogged incubation. , 2019, The Science of the total environment.

[14]  M. Rizwan,et al.  Dynamics of Selenium uptake, speciation, and antioxidant response in rice at different panicle initiation stages. , 2019, The Science of the total environment.

[15]  D. Liang,et al.  Leaching behaviors and chemical fraction distribution of exogenous selenium in three agricultural soils through simulated rainfall. , 2019, Ecotoxicology and environmental safety.

[16]  Tao Chen,et al.  Effect of phosphate and silicate on selenite uptake and phloem-mediated transport in tomato (Solanum lycopersicum L.) , 2019, Environmental Science and Pollution Research.

[17]  Haidong Zhang,et al.  Source apportionment of selenium and influence factors on its bioavailability in intensively managed greenhouse soil: A case study in the east bank of the Dianchi Lake, China. , 2019, Ecotoxicology and environmental safety.

[18]  C. Zu,et al.  Selenium Distribution and Translocation in Rice (Oryza sativa L.) under Different Naturally Seleniferous Soils , 2019, Sustainability.

[19]  Bijay-Singh,et al.  Genesis of seleniferous soils and associated animal and human health problems , 2019, Advances in Agronomy.

[20]  Hongsong Chen,et al.  Soil nutrients and stoichiometric ratios as affected by land use and lithology at county scale in a karst area, southwest China. , 2018, The Science of the total environment.

[21]  Zewei Cui,et al.  Selenium distribution in the Chinese environment and its relationship with human health: A review. , 2018, Environment international.

[22]  G. Esposito,et al.  Environmental impact and bioremediation of seleniferous soils and sediments , 2018, Critical reviews in biotechnology.

[23]  Jiang Liu,et al.  Soil aggregate and organic carbon distribution at dry land soil and paddy soil: the role of different straws returning , 2017, Environmental Science and Pollution Research.

[24]  Zewei Cui,et al.  Risk assessment for human health in a seleniferous area, Shuang’an, China , 2017, Environmental Science and Pollution Research.

[25]  Zewei Cui,et al.  Interaction between selenium and soil organic matter and its impact on soil selenium bioavailability: A review , 2017 .

[26]  K. Luo,et al.  Trace element distribution and enrichment patterns of Ediacaran-early Cambrian, Ziyang selenosis area, Central China: Constraints for the origin of Selenium , 2017 .

[27]  T. Smith,et al.  Microbial Transformations of Selenium Species of Relevance to Bioremediation , 2016, Applied and Environmental Microbiology.

[28]  R. Comans,et al.  Selenium-rich dissolved organic matter determines selenium uptake in wheat grown on Low-selenium arable land soils , 2016, Plant and Soil.

[29]  D. Karlen,et al.  Phosphorus pools responses to land-use change for sugarcane expansion in weathered Brazilian soils , 2016 .

[30]  P. Bindraban,et al.  Selenium fertilization strategies for bio-fortification of food: an agro-ecosystem approach , 2016, Plant and Soil.

[31]  Yong-guan Zhu,et al.  Distribution of soil selenium in China is potentially controlled by deposition and volatilization? , 2016, Scientific Reports.

[32]  S. K. Dhillon,et al.  Selenium in groundwater and its contribution towards daily dietary Se intake under different hydrogeological zones of Punjab, India , 2016 .

[33]  M. Islam,et al.  Trace elements in different land use soils of Bangladesh and potential ecological risk , 2015, Environmental Monitoring and Assessment.

[34]  D. Liang,et al.  Selenite adsorption and desorption in main Chinese soils with their characteristics and physicochemical properties , 2015, Journal of Soils and Sediments.

[35]  R. Jiang,et al.  Effects of root iron plaque on selenite and selenate dynamics in rhizosphere and uptake by rice (Oryza sativa) , 2015, Plant and Soil.

[36]  M. Tuttle,et al.  Contaminants from cretaceous black shale: II. Effect of geology, weathering, climate, and land use on salinity and selenium cycling, Mancos Shale landscapes, southwestern United States , 2014 .

[37]  A. Mollier,et al.  Short Communication. Effect of phosphorus nutrition and grain position within maize cob on grain phosphorus accumulation , 2014 .

[38]  F. Fordyce Selenium Deficiency and Toxicity in the Environment , 2013 .

[39]  X. Lu,et al.  Effects of land use and parent materials on trace elements accumulation in topsoil. , 2013, Journal of environmental quality.

[40]  D. Liang,et al.  Selenium fractionation and speciation in agriculture soils and accumulation in corn (Zea mays L.) under field conditions in Shaanxi Province, China. , 2012, The Science of the total environment.

[41]  M. Amini,et al.  Environmental selenium research: from microscopic processes to global understanding. , 2012, Environmental science & technology.

[42]  E. Pilon-Smits,et al.  Ecological aspects of plant selenium hyperaccumulation. , 2012, Plant biology.

[43]  K. Zhao,et al.  Spatial dependence and bioavailability of metal fractions in paddy fields on metal concentrations in rice grain at a regional scale , 2011 .

[44]  Shi-chang Kang,et al.  Atmospheric wet deposition of trace elements to central Tibetan Plateau , 2010 .

[45]  E. Herrero,et al.  Selenite-induced cell death in Saccharomyces cerevisiae: protective role of glutaredoxins. , 2010, Microbiology.

[46]  P. Renault,et al.  Aqueous, solid and gaseous partitioning of selenium in an oxic sandy soil under different microbiological states. , 2008, Journal of environmental radioactivity.

[47]  D. Peak Adsorption mechanisms of selenium oxyanions at the aluminum oxide/water interface. , 2006, Journal of colloid and interface science.

[48]  M. Duc,et al.  Sorption of selenium anionic species on apatites and iron oxides from aqueous solutions. , 2003, Journal of environmental radioactivity.

[49]  F. Fordyce,et al.  Soil, grain and water chemistry in relation to human selenium-responsive diseases in Enshi District, China , 2000 .

[50]  A. Zayed,et al.  Accumulation and volatilization of different chemical species of selenium by plants , 1998, Planta.

[51]  Terry,et al.  Rate-limiting steps in selenium assimilation and volatilization by indian mustard , 1998, Plant physiology.

[52]  O. Donard,et al.  Maritime emission of selenium to the atmosphere in Eastern Mediterranean seas , 1996 .

[53]  T. B. Daynard,et al.  QUANTITATIVE DISTRIBUTION OF ASSIMILATES IN COMPONENT ORGANS OF MAIZE DURING REPRODUCTIVE GROWTH , 1978 .