GEOCHEM-EZ: a chemical speciation program with greater power and flexibility

[1]  L. Kochian,et al.  Phosphorus and Aluminum Interactions in Soybean in Relation to Aluminum Tolerance. Exudation of Specific Organic Acids from Different Regions of the Intact Root System1[W] , 2006, Plant Physiology.

[2]  T. Iwashita,et al.  Form of Al changes with Al concentration in leaves of buckwheat. , 2003, Journal of experimental botany.

[3]  F. Smith,et al.  Use of GEOCHEM-PC to predict rare earth element (REE) species in nutrient solutions , 1993, Plant and Soil.

[4]  L. Kochian,et al.  The role of shoot-localized processes in the mechanism of Zn efficiency in common bean , 2004, Planta.

[5]  H. Nguyen,et al.  Identification and mapping of the QTL for aluminum tolerance introgressed from the new source, ORYZA RUFIPOGON Griff., into indica rice (Oryza sativa L.) , 2003, Theoretical and Applied Genetics.

[6]  J. Ritchie,et al.  Toxicological response of a bioluminescent microbial assay to Zn, Pb and Cu in an artificial soil solution: relationship with total metal concentrations and free ion activities. , 2001, Environmental pollution.

[7]  T. Rufty,et al.  Magnesium is more efficient than calcium in alleviating aluminum rhizotoxicity in soybean and its ameliorative effect is not explained by the Gouy-Chapman-Stern model. , 2001, Plant & cell physiology.

[8]  D. Parker,et al.  Reevaluating the free‐ion activity model of trace metal toxicity toward higher plants: Experimental evidence with copper and zinc , 2001, Environmental toxicology and chemistry.

[9]  P. Bloom,et al.  HEDTA-nitrilotriacetic acid chelator-buffered nutrient solution for zinc deficiency evaluation in rice , 2001 .

[10]  Z. Rengel,et al.  Direct measurement of aluminum uptake and distribution in single cells of Chara corallina. , 2000, Plant physiology.

[11]  B. Hu,et al.  QTLs and epistasis for aluminum tolerance in rice (Oryza sativa L.) at different seedling stages , 2000, Theoretical and Applied Genetics.

[12]  Y. Hadar,et al.  Kinetics of Iron Complexing and Metal Exchange in Solutions by Rhizoferrin, A Fungal Siderophore , 1999 .

[13]  C. Krüger,et al.  Phloem loading and transport characteristics of iron in interaction with plant‐endogenous ligands in castor bean seedlings , 1999 .

[14]  Raskin,et al.  The role of EDTA in lead transport and accumulation by indian mustard , 1998, Plant physiology.

[15]  L. Kochian,et al.  Direct Measurement of 59Fe-Labeled Fe2+ Influx in Roots of Pea Using a Chelator Buffer System to Control Free Fe2+ in Solution , 1996, Plant physiology.

[16]  D. Parker,et al.  GEOCHEM‐PC—A Chemical Speciation Program for IBM and Compatible Personal Computers , 1995 .

[17]  D. Parker,et al.  Chemical Equilibrium Models: Applications to Plant Nutrition Research , 1995 .

[18]  J. Germida,et al.  Effects of chemical speciation in growth media on the toxicity of mercury(II) , 1993, Applied and environmental microbiology.

[19]  David R. Parker,et al.  Improvements to the Program Geochem , 1987 .

[20]  J. Cock,et al.  Laboratory manual for physiological studies of rice , 1971 .