Residual transpiration rate, epicuticular wax load and leaf colour of pea plants in drought conditions. Influence on harvest index and canopy temperature
Fj. Sanchez et al., Residual transpiration rate, epicuticular wax load and leaf colour of pea plants in drought conditions. Influence on harvest index and canopy temperature, EUR J AGRON, 15(1), 2001, pp. 57-70
Residual transpiration rates, epicuticular wax loads and leaf colours of 20
cultivars of pea (commercial varieties and bred, improved lines) were stud
ied. The residual transpiration rate varied between genotypes from 0.77 to
1.82 mg m(-2) s(-1), while wax content varied between 0.19 and 0.41 g m(-2)
. Leaf colour varied on the Munsell colour saturation scale between 4 and 8
. No significant correlation was found between epicuticular wax load and re
sidual transpiration rate. This suggests that all the studied varieties hav
e more than enough wax to be able to adequately control the loss of water f
rom the cuticle. The differences between cultivars in residual transpiratio
n rates are therefore due to other factors. No significant changes in resid
ual transpiration rate were seen in any of the genotypes studied when subje
cted to drought, with the exception of variety 53. However, in the majority
of varieties, the epicuticular wax load increased significantly when plant
s were subjected to this treatment. All three studied parameters affected t
he performance of pea plants under drought. A positive correlation (P <0.00
1) was found between residual transpiration rate and harvest index: cultiva
rs with greater water loss via the epidermis showed greater harvest indices
. It is possible that a high harvest index is a consequence of a reduction
in heat stress (a significant correlation (P < 0.001) was found between res
idual transpiration rate and canopy temperature). Epicuticular wax load als
o correlated significantly (P < 0.001) with harvest index. Cultivars with g
reater wax loads gave higher rain-fed harvest indices. Wax-rich varieties d
eveloped significantly lower canopy temperatures (P < 0.001). This suggests
that incident radiation is more efficiently reflected with increasing wax
load, which leads to the alleviation of heat stress. Varieties with less sa
turated leaf colours gave higher rain-fed harvest indices. A more pallid gr
een shade probably indicates a lower chlorophyll content and a lower quanti
ty of antenna complexes at each reaction centre of photosystem II. In droug
ht this would permit lower absorption of radiation, which might lessen heat
stress and reduce the risk of over-excitation of photosystem II reaction c
entres. (C) 2001 Elsevier Science BY. All rights reserved.