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- Title
Extension Growth of Impatiens glandulifera at Low Irradiance: Importance of Nitrate and Potassium Accumulation.
- Authors
ANDREWS, M.; MAULE, H. G.; RAVEN, J. A.; MISTRY, A.
- Abstract
• Background and Aims The summer annual Impatiens glandulifera can reach 3 m in height within deciduous woodland. The primary objective was to determine if NO3− accumulation, and hence its osmotic effect, is an important physiological mechanism allowing Impatiens to achieve substantial height under low irradiance.• Methods Stem extension, concentrations of K+ and NO3− in leaves and concentrations of K+, NO3− and other inorganic anions, malate, sugars, total N and total osmoticum in stem were measured in I. glandulifera sampled at different irradiance levels in deciduous woodland and in a glasshouse. Also, the energetic costs, as absorbed photons, of generating osmolarity in stem cell vacuoles with KNO3, K2malate or hexose sugar were determined.• Key Results Results were similar in the woodland and glasshouse. At 50–100 % relative irradiance (Ir; open ground PAR = 100 % Ir) and 2–10 % Ir, plant height increased from 7–14 cm to 130–154 cm in 64–67 d. Leaf and stem NO3− concentrations were negligible at 50–100 % Ir while K+, malate2− and sugars, respectively, accounted for 33·2–50·1 %, 19·3–20·8 % and 2·0–2·6 % of total osmoticum in stems. At 2–10 % Ir, NO3− concentrations were four to eight times greater in stems than leaves. Here, NO3− constituted 26·7–34·3 % of the total osmotic concentration in the stem and NO3−-N constituted 69–81 % of total N in stem tissue. Also at 2–10 % Ir, K+ comprised 44·9–45·9 % and malate plus sugars 2·2–3·1 % of total osmotic concentration. The energy cost of osmoticum as KNO3 was calculated as less than half that of malate and less than one-seventh that for hexose. Further calculations suggest that use of KNO3, K2malate or glucose as osmoticum at low irradiance would, respectively, cost approx. 7 %, 16 % and 50 % of the total construction cost of the stem.• Conclusions It is concluded that accumulation of NO3− in place of organic molecules in stems is an important mechanism allowing I. glandulifera to achieve substantial height at low irradiance.
- Subjects
HIMALAYAN balsam; IRRADIATION; EFFECT of nitrates on plants; EFFECT of potassium on plants; POTASSIUM; NITRATES
- Publication
Annals of Botany, 2005, Vol 95, Issue 4, p641
- ISSN
0305-7364
- Publication type
Article
- DOI
10.1093/aob/mci059