His primary areas of investigation include Shoot, Botany, Biochemistry, Agronomy and Horticulture. The study incorporates disciplines such as Salt, Fumigation and Salinity in addition to Shoot. Pieter J. C. Kuiper combines topics linked to Nutrient with his work on Botany.
Biochemistry is closely attributed to Darkness in his work. In his research on the topic of Agronomy, Sugar beet is strongly related with Sodium. His research in Horticulture intersects with topics in Yield, Glycine, Toxicity and Cold acclimation.
His primary areas of study are Botany, Shoot, Horticulture, Biochemistry and Agronomy. His research integrates issues of Ecology and Nutrient in his study of Botany. The Shoot study combines topics in areas such as Sugar beet, Fumigation, Nutrient solution and Plant physiology.
Pieter J. C. Kuiper combines subjects such as Ammonium nitrate, Salinity and Mucuna pruriens with his study of Horticulture. His Biochemistry study which covers Food science that intersects with Phospholipid, Cucumis and Linolenic acid. His studies in Agronomy integrate themes in fields like Specific leaf area and Sodium.
His scientific interests lie mostly in Botany, Agronomy, Shoot, Horticulture and Field experiment. His research investigates the connection between Botany and topics such as Animal science that intersect with issues in Nutrient. His Agronomy research integrates issues from Nitrogen fixation, N2 Fixation and Nitrate.
His Nitrate research includes elements of Spinach, Spinacia and Nitrogen. He has included themes like Ammonium nitrate, Ammonium and Mucuna pruriens in his Horticulture study. His Field experiment study incorporates themes from Yield, Glycine, Sowing, Point of delivery and Specific leaf area.
Biochemistry, Botany, Stomatal conductance, Iron deficiency and Arabidopsis thaliana are his primary areas of study. His work in the fields of Biochemistry, such as Phytochelatin, overlaps with other areas such as Heat shock protein, Environmental stress, Abscisic acid and General adaptation syndrome. In general Botany, his work in Acclimatization, Shoot and Transpiration is often linked to Glutamine synthetase linking many areas of study.
The concepts of his Stomatal conductance study are interwoven with issues in Subtropics, Temperate climate, Fagaceae, Anatomy and Phenology. His Iron deficiency research is multidisciplinary, relying on both Chlorosis, Ferric-chelate reductase, Ferric and FMN reductase. He performs multidisciplinary study in Arabidopsis thaliana and Root hair in his work.
P. J. C. Kuiper
Y. Y. Leshem;P. J. C. Kuiper
Daan Kuiper;Pieter J. C. Kuiper;Hans Lambers;Jacqueline Schuit
Mohamed Magdy;M.M.F. Mansour;Philip R. van Hasselt;Pieter J.C. Kuiper
Gabriela Smolenska;Pieter J. C. Kuiper
Daan Kuiper;Jacqueline Schuit;Pieter J. C. Kuiper
Yinbo Gan;Ineke Stulen;Herman van Keulen;Pieter J.C Kuiper
Wolfgang Brüggemann;Petra R. Moog;Hikoki Nakagawa;Peter Janiesch
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P.R. Moog;T.A.W. Van der Kooij;W. Bruggemann;J.W. Schiefelbein
László Erdei;Pieter J. C. Kuiper
L.J. De Kok;P.J.L. de Kan;Otto G. Tanczos;Pieter J.C. Kuiper
D. Kuiper;J. Schuit;P. J. C. Kuiper
László Erdei;Bep Stuiver;Pieter J. C. Kuiper
Marta Pérez-Soba;Thomas A. Dueck;Gigliola Puppi;Pieter J.C. Kuiper
Luit J. de Kok;Pieter J. C. Kuiper
Y.B. Gan;I. Stulen;H. van Keulen;P.J.C. Kuiper
H. Marschner;A. Kylin;P. J. C. Kuiper
H. Marschner;P. J. C. Kuiper;A. Kylin
L.J. De Kok;W. Bosma;F.M. Maas;P.J.C. Kuiper
Wolfram M. Kürschner;Ineke Stulen;Friederike Wagner;Pieter J.C. Kuiper
F. Buwalda;de Luitjen Kok;I. Stulen;P.J.C. Kuiper
Frank M. Maas;Luit J. De Kok;Janny L. Peters;Pieter J. C. Kuiper
Paul Dijkstra;Harrie Ter Reegen;Pieter J. C. Kuiper
Yinbo Gan;Ineke Stulen;Freek Posthumus;Herman van Keulen
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