User menu

Pot binding as a variable confounding plant phenotype: theoretical derivation and experimental observations

Bibliographic reference Sinclair, T.r. ; Manandhar, anju ; Shekoofa, avat ; Rosas-Anderson, Pablo ; Bagherzadi, Laleh ; et. al. Pot binding as a variable confounding plant phenotype: theoretical derivation and experimental observations. In: Planta : an international journal of plant biology, Vol. 245, no.4, p. 729-735 (2016)
Permanent URL http://hdl.handle.net/2078.1/183713
  1. Bourgault M, James AT, Dreccer MF (2017) Pot size matters revisited: does container size affect the response to elevated CO2 and our ability to detect genotypic variability in this response in wheat? Func Plant Biol (currently online, 8 Dec 2016)
  2. Dambreville A, Griolet M, Rolland G, Dauzat M, Bediee A, Balsera C, Muller B, Vile D, Granier C (2017) Phenotyping oilseed rape growth—related traits and their responses to water deficit: the disturbing pot size effect. Func Plant Biol (currently online, 8 Dec 2016)
  3. Devi Mura Jyostna, Sinclair Thomas R., Beebe Stephen E., Rao Idupulapati M., Comparison of common bean (Phaseolus vulgaris L.) genotypes for nitrogen fixation tolerance to soil drying, 10.1007/s11104-012-1330-4
  4. Gholipoor M., Sinclair T. R., Raza M. A. S., Löffler C., Cooper M., Messina C. D., Maize Hybrid Variability for Transpiration Decrease with Progressive Soil Drying, 10.1111/j.1439-037x.2012.00530.x
  5. HESS LINDE, DE KROON HANS, Effects of rooting volume and nutrient availability as an alternative explanation for root self/non-self discrimination, 10.1111/j.1365-2745.2006.01204.x
  6. Ismail AM, Hall AE, Bray EA, Drought and Pot Size Effects on Transpiration Efficiency and Carbon Isotope Discrimination of Cowpea Accessions and Hybrids, 10.1071/pp9940023
  7. Kasai Minobu, Koide Keisuke, Ichikawa Yuya, Effect of Pot Size on Various Characteristics Related to Photosynthetic Matter Production in Soybean Plants, 10.1155/2012/751731
  8. Manandhar A, Sinclair TR, Rufty TW, Ghanem ME (2016) Leaf expansion and transpiration response to soil drying and recovery among cowpea genotypes. Crop Sci (in reviews)
  9. NeSmith DS, Duval JR (1998) The effect of container size. Hortech 8:495–498
  10. Poorter Hendrik, Bühler Jonas, van Dusschoten Dagmar, Climent José, Postma Johannes A., Pot size matters: a meta-analysis of the effects of rooting volume on plant growth, 10.1071/fp12049
  11. Ratliff L. F., Ritchie J. T., Cassel D. K., Field-Measured Limits of Soil Water Availability as Related to Laboratory-Measured Properties1, 10.2136/sssaj1983.03615995004700040032x
  12. Ray J. D., Sinclair T. R., The effect of pot size on growth and transpiration of maize and soybean during water deficit stress, 10.1093/jxb/49.325.1381
  13. Ronchi Cláudio P., DaMatta Fábio M., Batista Karine D., Moraes Gustavo A. B. K., Loureiro Marcelo E., Ducatti Carlos, Growth and photosynthetic down-regulation inCoffea arabicain response to restricted root volume, 10.1071/fp06147
  14. Sadras V.O., Milroy S.P., Soil-water thresholds for the responses of leaf expansion and gas exchange: A review, 10.1016/0378-4290(96)00014-7
  15. Sinclair Thomas R., Hammond Luther C., Harrison J., Extractable Soil Water and Transpiration Rate of Soybean on Sandy Soils, 10.2134/agronj1998.00021962009000030008x
  16. Sinclair Thomas R., Manandhar Anju, Belko Nouhoun, Riar Mandeep, Vadez Vincent, Roberts Philip A., Variation among Cowpea Genotypes in Sensitivity of Transpiration Rate and Symbiotic Nitrogen Fixation to Soil Drying, 10.2135/cropsci2014.12.0816
  17. Wahbi Ammar, Sinclair Thomas R., Transpiration response of Arabidopsis, maize, and soybean to drying of artificial and mineral soil, 10.1016/j.envexpbot.2005.12.004