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Leaf Chlorophyll Content (leaf + chlorophyll_content)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Promotion of 5-aminolevulinic acid on photosynthesis of melon (Cucumis melo) seedlings under low light and chilling stress conditions

PHYSIOLOGIA PLANTARUM, Issue 2 2004
Liang Ju Wang
When melon seedlings (Cucumis melo L. Ximiya No. 1) were cultured in a growth chamber with about 150 µmol m,2 s,1 photon flux density, the leaf photosynthetic ability reduced dramatically as leaf position decreased from the top. The application of 5-aminolevulinic acid (ALA) solutions significantly increased the net photosynthetic rate (Pn) as well as apparent quantum yield (AQY), carboxylation efficiency (CE) and stomata conductance (Gs). After irrigation with 10 ml of ALA solution (10 mg l,1 or 100 mg l,1) per container filled with approximately 250 g clean sand for 3 days, the leaf Pn was about 40,200% higher than that of controls, and AQY, CE and Gs increased 21,271%, 55,210% and 60,335%, respectively. Furthermore, ALA treatments increased leaf chlorophyll content and soluble sugar levels, as well as the rate of dark respiration, but decreased the rate of respiration under light. On the other hand, after melon seedlings that had been cultured in the chamber suffered chilling at 8°C for 4 h and then recovered at 25,30°C for 2 and 20 h, the Pn of the water-irrigated plants was only 12,18% and 37,47%, respectively, compared with the initial Pn before chilling treatment. If the seedlings underwent the same treatment but with ALA (10 mg l,1), the respective Pn was 22,38% and 76,101%, compared with that of the control before chilling stress. If chilling was prolonged for 6 h, the ALA-pre-treated plants only showed a few symptoms in the leaf margins whereas all water-irrigated plants died, which suggested that ALA presumably promoted chilling tolerance of the plants under low light. [source]

Effects of long-term chilling on growth and photosynthesis of the C4 gramineae Paspalum dilatatum

PHYSIOLOGIA PLANTARUM, Issue 1 2003
Ana M. Cavaco
Dallis grass (Paspalum dilatatum Poir.) is a C4/NADP-ME gramineae, previously classified as semi-tolerant to cold, although a complete study on this species acclimation process under a long-term chilling and controlled environmental conditions has never been conducted. In the present work, plants of the variety Raki maintained at 25/18°C (day/night) (control) were compared with plants under a long-term chilling at 10/8°C (day/night) (cold-acclimated) in order to investigate how growth and carbon assimilation mechanisms are engaged in P. dilatatum chilling tolerance. Although whole plant mean relative growth rate (mean RGR) and leaf growth were significantly decreased by cold exposure, chilling did not impair plant development nor favour the investment in biomass below ground. Cold-acclimated P. dilatatum cv. Raki had a lower leaf chlorophyll content, but a higher photosynthetic capacity at optimal temperatures, its range being shifted to lower values. Associated with this higher capacity to use the reducing power in CO2 assimilation, cold-acclimated plants further showed a higher capacity to oxidize the primary stable quinone electron acceptor of PSII, QA. The activity and activation of phosphoenolpyruvate carboxylase (PEPC; EC 4.1.1.31) and ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco; EC 4.1.1.39) were not significantly affected by the long-term chilling. Cold-acclimated P. dilatatum cv. Raki apparently showed a lower transfer of excitation energy from the light-harvesting complex of photosystem II to the respective reaction centre and enhancement of radiationless energy-dissipating mechanisms at suboptimal temperatures. Overall, long-term chilling resulted in several effects that comprise responses with an intermediate character of both chilling-tolerant and ,sensitive plants, which seem to play a significant role in the survival and acclimation of P. dilatatum cv. Raki at low temperature. [source]

Stay green trait in grain sorghum: relationship between visual rating and leaf chlorophyll concentration

PLANT BREEDING, Issue 4 2000
W. Xu
Abstract Post-flowering drought tolerance is referred to as the stay green trait in sorghum. Plants with stay green resist drought-induced premature plant senescence. In breeding programmes, stay green is evaluated under limited irrigation, post-flowering moisture-stress field conditions and visually scored at or soon after physiological grain maturity. The objective of this study was to investigate the relationship between the stay green rating and total leaf chlorophyll content. The parents B35 and Tx7000, and their 98 F, recombinant inbred lines were evaluated in replicated field trials under limited (post-flowering stress) and full-irrigation (non-stress) conditions. After scoring the stay green trait of stressed plants, total leaf chlorophyll contents were measured with a chlorophyll meter (SPAD values) and a spectrophotometer method. The SPAD value had a significant linear relationship with total leaf chlorophyll (R2= 0.91) and with visual stay green rating (with R2= 0.82). Relative water content in top leaves of the stay green lines was about 81%, much higher than non-stay green lines (38%), indicating that the stay green lines kept the stalk transporting system functioning under severe drought conditions, The results indicate that visual stay green ratings were a reliable indicator of leaf senescence an should be useful to sorghum breeders in evaluating progeny when breeding for drought tolerance. [source]