Accumulation and Speciation of Arsenic in Pteris vittata Gametophytes and Sporophytes: Effects of Calcium and Phosphorus
|
摘要
<正>Dear Editor,Environmental arsenic(As) contamination of both soil and water systems is a worldwide problem, and As can enter the human food chain through contaminated agricultural products and drinking water and contribute to the development of lung, bladder, and kidney cancers and other conditions such as diabetes and skin
引文
Ali W,Isayenkov S V,Zhao F J,Maathuis F J M.2009.Arsenite transport in plants.Cell Mol Life Sci.66:2329-2339.
Bolan N,Mahimairaja S,Kunhikrishnan A,Choppala G.2013.Phosphorus-arsenic interactions in variable-charge soils in relation to arsenic mobility and bioavailability.Sci Total Environ.463-464:1154-1162.
Chen Y S,Fu J W,Han Y H,Rathinasabapathi B,Ma L Q.2016.High As exposure induced substantial arsenite efflux in As-hyperaccumulator Pteris vittata.Chemosphere.144:2189-2194.
DiTusa S F,Fontenot E B,Wallace R W,Silvers M A,Steele T N,Elnagar A H,Dearman K M,Smith A P.2016.A member of the phosphate transporter 1(Pht1)family from the arsenichyperaccumulating fern Pteris vittata is a high-affinity arsenate transporter.New Phytol.209:762-772.
Duan G L,Zhu Y G,Tong Y P,Cai C,Kneer R.2005.Characterization of arsenate reductase in the extract of roots and fronds of Chinese brake fern,an arsenic hyperaccumulator.Plant Physiol.138:461-469.
Fayiga A Q,Ma L Q,Rathinasabapathi B.2008.Effects of nutrients on arsenic accumulation by arsenic hyperaccumulator Pteris vittata L.Environ Exp Bot.62:231-237.
Gumaelius L,Lahner B,Salt D E,Banks J A.2004.Arsenic hyperaccumulation in gametophytes of Pteris vittata.A new model system for analysis of arsenic hyperaccumulation.Plant Physiol.136:3198-3208.
Han Y H,Fu J W,Chen Y S,Rathinasabapathi B,Ma L Q.2016.Arsenic uptake,arsenite efflux and plant growth in hyperaccumulator Pteris vittata:Role of arsenic-resistant bacteria.Chemosphere.144:1937-1942.
Hepler P K.2005.Calcium:A central regulator of plant growth and development.Plant Cell.17:2142-2155.
Lessl J T,Ma L Q.2013.Sparingly-soluble phosphate rock induced significant plant growth and arsenic uptake by Pteris vittata from three contaminated soils.Environ Sci Technol.47:5311-5318.
Li W X,Chen T B,Huang Z C,Lei M,Liao X Y.2006.Effect of arsenic on chloroplast ultrastructure and calcium distribution in arsenic hyperaccumulator Pteris vittata L.Chemosphere.62:803-809.
Liao X Y,Xie H,Chen T B,Xiao X Y,Yan X L,Zhai L M,Wu B.2007.Ultrastructure and subcellular distributions of arsenic and calcium in Pteris vittata L.Plant Nutr Fert Sci(in Chinese).13:305-312.
Ma L Q,Komar K M,Tu C,Zhang W H,Cai Y,Kennelley ED.2001.A fern that hyperaccumulates arsenic.Nature.409:579.
Poynton C Y,Huang J W,Blaylock M J,Kochian L V,Elless M P.2004.Mechanisms of arsenic hyperaccumulation in Pteris species:Root As influx and translocation.Planta.219:1080-1088.
Raghothama K G.1999.Phosphate acquisition.Annu Rev Plant Physiol Plant Mol Biol.50:665-693.
Raj A,Pandey A K,Sharma Y K,Khare P B,Srivastava PK,Singh N.2011.Metabolic adaptation of Pteris vittata L.gametophyte to arsenic induced oxidative stress.Bioresour Technol.102:9827-9832.
Rathinasabapathi B,Raman S B,Kertulis G,Ma L N.2006.Arsenic-resistant proteobacterium from the phyllosphere of arsenic-hyperaccumulating fern(Pteris vittata L.)reduces arsenate to arsenite.Can J Microbiol.52:695-700.
Ren J H,Sun H J,Wang S F,Luo J,Ma L Q.2014.Interactive effects of mercury and arsenic on their uptake,speciation and toxicity in rice seedling.Chemosphere.117:737-744.
Santos J A G,Gonzaga M I S,Ma L Q.2010.Optimum P levels for arsenic removal from contaminated groundwater by Pteris vittata L.of different ages.J Hazard Mater.180:662-667.
Santos J A G,Gonzaga M I S,Ma L Q,Srivastava M.2008.Timing of phosphate application affects arsenic phytoextraction by Pteris vittata L.of different ages.Environ Pollut.154:306-311.
Singh R,Singh S,Parihar P,Singh V P,Prasad S M.2015.Arsenic contamination,consequences and remediation techniques:A review.Ecotoxicol Environ Saf.112:247-270.
Tu C,Ma L Q.2002.Effects of arsenic concentrations and forms on arsenic uptake by the hyperaccumulator ladder brake.JEnviron Qual.31:641-647.
Tu S,Ma L Q,MacDonald G E,Bondada B.2004.Effects of arsenic species and phosphorus on arsenic absorption,arsenate reduction and thiol formation in excised parts of Pteris vittata L.Environ Exp Bot.51:121-131.
Wang J R,Zhao F J,Meharg A A,Raab A,Feldmann J,McGrath S P.2002.Mechanisms of arsenic hyperaccumulation in Pteris vittata.Uptake kinetics,interactions with phosphate,and arsenic speciation.Plant Physiol.130:1552-1561.
Wang W J,Cheng S,Zhang D F.2014.Association of inorganic arsenic exposure with liver cancer mortality:A metaanalysis.Environ Res.135:120-125.
Xie Q E,Yan X L,Liao X Y,Li X.2009.The arsenic hyperaccumulator fern Pteris vittata L.Environ Sci Technol.43:8488-8495.
Xu J Y,Li H B,Liang S,Luo J,Ma L Q.2014.Arsenic enhanced plant growth and altered rhizosphere characteristics of hyperaccumulator Pteris vittata.Environ Pollut.194:105-111.
Zhu L J,Guan D X,Luo J,Rathinasabapathi B,Ma L Q.2014.Characterization of arsenic-resistant endophytic bacteria from hyperaccumulators Pteris vittata and Pteris multifida.Chemosphere.113:9-16.
Bolan N,Mahimairaja S,Kunhikrishnan A,Choppala G.2013.Phosphorus-arsenic interactions in variable-charge soils in relation to arsenic mobility and bioavailability.Sci Total Environ.463-464:1154-1162.
Chen Y S,Fu J W,Han Y H,Rathinasabapathi B,Ma L Q.2016.High As exposure induced substantial arsenite efflux in As-hyperaccumulator Pteris vittata.Chemosphere.144:2189-2194.
DiTusa S F,Fontenot E B,Wallace R W,Silvers M A,Steele T N,Elnagar A H,Dearman K M,Smith A P.2016.A member of the phosphate transporter 1(Pht1)family from the arsenichyperaccumulating fern Pteris vittata is a high-affinity arsenate transporter.New Phytol.209:762-772.
Duan G L,Zhu Y G,Tong Y P,Cai C,Kneer R.2005.Characterization of arsenate reductase in the extract of roots and fronds of Chinese brake fern,an arsenic hyperaccumulator.Plant Physiol.138:461-469.
Fayiga A Q,Ma L Q,Rathinasabapathi B.2008.Effects of nutrients on arsenic accumulation by arsenic hyperaccumulator Pteris vittata L.Environ Exp Bot.62:231-237.
Gumaelius L,Lahner B,Salt D E,Banks J A.2004.Arsenic hyperaccumulation in gametophytes of Pteris vittata.A new model system for analysis of arsenic hyperaccumulation.Plant Physiol.136:3198-3208.
Han Y H,Fu J W,Chen Y S,Rathinasabapathi B,Ma L Q.2016.Arsenic uptake,arsenite efflux and plant growth in hyperaccumulator Pteris vittata:Role of arsenic-resistant bacteria.Chemosphere.144:1937-1942.
Hepler P K.2005.Calcium:A central regulator of plant growth and development.Plant Cell.17:2142-2155.
Lessl J T,Ma L Q.2013.Sparingly-soluble phosphate rock induced significant plant growth and arsenic uptake by Pteris vittata from three contaminated soils.Environ Sci Technol.47:5311-5318.
Li W X,Chen T B,Huang Z C,Lei M,Liao X Y.2006.Effect of arsenic on chloroplast ultrastructure and calcium distribution in arsenic hyperaccumulator Pteris vittata L.Chemosphere.62:803-809.
Liao X Y,Xie H,Chen T B,Xiao X Y,Yan X L,Zhai L M,Wu B.2007.Ultrastructure and subcellular distributions of arsenic and calcium in Pteris vittata L.Plant Nutr Fert Sci(in Chinese).13:305-312.
Ma L Q,Komar K M,Tu C,Zhang W H,Cai Y,Kennelley ED.2001.A fern that hyperaccumulates arsenic.Nature.409:579.
Poynton C Y,Huang J W,Blaylock M J,Kochian L V,Elless M P.2004.Mechanisms of arsenic hyperaccumulation in Pteris species:Root As influx and translocation.Planta.219:1080-1088.
Raghothama K G.1999.Phosphate acquisition.Annu Rev Plant Physiol Plant Mol Biol.50:665-693.
Raj A,Pandey A K,Sharma Y K,Khare P B,Srivastava PK,Singh N.2011.Metabolic adaptation of Pteris vittata L.gametophyte to arsenic induced oxidative stress.Bioresour Technol.102:9827-9832.
Rathinasabapathi B,Raman S B,Kertulis G,Ma L N.2006.Arsenic-resistant proteobacterium from the phyllosphere of arsenic-hyperaccumulating fern(Pteris vittata L.)reduces arsenate to arsenite.Can J Microbiol.52:695-700.
Ren J H,Sun H J,Wang S F,Luo J,Ma L Q.2014.Interactive effects of mercury and arsenic on their uptake,speciation and toxicity in rice seedling.Chemosphere.117:737-744.
Santos J A G,Gonzaga M I S,Ma L Q.2010.Optimum P levels for arsenic removal from contaminated groundwater by Pteris vittata L.of different ages.J Hazard Mater.180:662-667.
Santos J A G,Gonzaga M I S,Ma L Q,Srivastava M.2008.Timing of phosphate application affects arsenic phytoextraction by Pteris vittata L.of different ages.Environ Pollut.154:306-311.
Singh R,Singh S,Parihar P,Singh V P,Prasad S M.2015.Arsenic contamination,consequences and remediation techniques:A review.Ecotoxicol Environ Saf.112:247-270.
Tu C,Ma L Q.2002.Effects of arsenic concentrations and forms on arsenic uptake by the hyperaccumulator ladder brake.JEnviron Qual.31:641-647.
Tu S,Ma L Q,MacDonald G E,Bondada B.2004.Effects of arsenic species and phosphorus on arsenic absorption,arsenate reduction and thiol formation in excised parts of Pteris vittata L.Environ Exp Bot.51:121-131.
Wang J R,Zhao F J,Meharg A A,Raab A,Feldmann J,McGrath S P.2002.Mechanisms of arsenic hyperaccumulation in Pteris vittata.Uptake kinetics,interactions with phosphate,and arsenic speciation.Plant Physiol.130:1552-1561.
Wang W J,Cheng S,Zhang D F.2014.Association of inorganic arsenic exposure with liver cancer mortality:A metaanalysis.Environ Res.135:120-125.
Xie Q E,Yan X L,Liao X Y,Li X.2009.The arsenic hyperaccumulator fern Pteris vittata L.Environ Sci Technol.43:8488-8495.
Xu J Y,Li H B,Liang S,Luo J,Ma L Q.2014.Arsenic enhanced plant growth and altered rhizosphere characteristics of hyperaccumulator Pteris vittata.Environ Pollut.194:105-111.
Zhu L J,Guan D X,Luo J,Rathinasabapathi B,Ma L Q.2014.Characterization of arsenic-resistant endophytic bacteria from hyperaccumulators Pteris vittata and Pteris multifida.Chemosphere.113:9-16.