Phytosiderophores released by graminaceous species promote 59Fe-uptake in citrus
Chlorosis-susceptible fruit trees growing on calcareous soils have been observed to recover
in the presence of grass cover species. However, the physiological mechanisms behind this …
in the presence of grass cover species. However, the physiological mechanisms behind this …
Chelation effects on the iron reduction and uptake by low‐iron stress tolerant and non‐tolerant citrus rootstocks
JA Manthey, DL McCoy, DE Crowley - Journal of plant nutrition, 1993 - Taylor & Francis
The relative rates of ferric‐iron (Fe3+) reduction and uptake by two citrus rootstocks were
measured for a series of synthetic Fe3+ chelates and microbial siderophores. The rates of …
measured for a series of synthetic Fe3+ chelates and microbial siderophores. The rates of …
Stimulation of rhizosphere iron reduction and uptake in response to iron deficiency in citrus rootstocks.
JA Manthey, DL McCoy, DE Crowley - 1994 - cabidigitallibrary.org
The effects of Fe deficiency on extracellular Fe3+ reduction by roots of the Citrus rootstocks
C. jambhiri cv. Schaub, C. macrophylla, C. limonia, Troyer citrange, Swingle citrumelo and …
C. jambhiri cv. Schaub, C. macrophylla, C. limonia, Troyer citrange, Swingle citrumelo and …
The role of mycorrhizal fungi and non-mycorrhizal micro-organisms in iron nutrition of citrus
MT Treeby - Soil Biology and Biochemistry, 1992 - Elsevier
Two citrus rootstocks differing in mycorrhizal dependence and lime tolerance, rough lemon
(Citrus jambhiri Lush.) and trifoliate orange [Poncirus trifoliata (L.) Raf.], were grown in either …
(Citrus jambhiri Lush.) and trifoliate orange [Poncirus trifoliata (L.) Raf.], were grown in either …
Genotypical differences among graminaceous species in release of phytosiderophores and uptake of iron phytosiderophores
V Römheld, H Marschner - Genetic aspects of plant mineral nutrition, 1990 - Springer
Graminaceous species can enhance iron (Fe) acquisition from sparingly soluble inorganic
Fe (III) compounds by release of phytosiderophores (PS) which mobilize Fe (III) by chelation …
Fe (III) compounds by release of phytosiderophores (PS) which mobilize Fe (III) by chelation …
Evidence for a specific uptake system for iron phytosiderophores in roots of grasses
V Römheld, H Marschner - Plant physiology, 1986 - academic.oup.com
Roots of grasses in response to iron deficiency markedly increase the release of chelating
substances (phytosiderophores') which are highly effective in solubilization of sparingly …
substances (phytosiderophores') which are highly effective in solubilization of sparingly …
Iron deficiency stress responses amongst citrus rootstocks
M Treeby, N Uren - Zeitschrift für Pflanzenernährung und …, 1993 - Wiley Online Library
Seedlings of citrus rootstocks differing in lime tolerance were grown in nutrient solution with
and without Fe. Proton efflux, release of phenolic compounds and Fe reducing substances …
and without Fe. Proton efflux, release of phenolic compounds and Fe reducing substances …
A novel citrus rootstock tolerant to iron deficiency in calcareous soil
L Fu, L Chai, D Ding, Z Pan - Journal of the American Society for …, 2016 - journals.ashs.org
Iron (Fe) deficiency caused by calcareous soil is a serious problem in the cultivation of citrus
(Citrus L.) trees. In this study, we report that 'Zhique'(Citrus wilsonii Tanaka) citrus rootstock …
(Citrus L.) trees. In this study, we report that 'Zhique'(Citrus wilsonii Tanaka) citrus rootstock …
Specific Fe2+ uptake system in strategy I plants inducible under Fe deficiency
T Zaharieva, V Römheld - Journal of Plant Nutrition, 2000 - Taylor & Francis
The aim of this study was to examine more in detail the uptake of Fe2+ in non‐
graminaceous (Strategy I plants) and graminaceous species (Strategy II plants). FeSO4 (2 …
graminaceous (Strategy I plants) and graminaceous species (Strategy II plants). FeSO4 (2 …
Uptake and translocation of iron from ferrated rhodotorulic acid in tomato
GW Miller, JC Pushnik, JC Brown, TE Emery… - Journal of plant …, 1985 - Taylor & Francis
Micro‐organisms may develop an iron‐deficiency stress when grown in an alkaline
environment and secrete ferric‐specific chelators known as siderophores. Some of these …
environment and secrete ferric‐specific chelators known as siderophores. Some of these …