Abstract
Leaf dry mass per unit area (LMA) is considered to represent the photosynthetic capacity, which actually implies a hypothesis that foliar water mass (leaf fresh weight minus leaf dry weight) is proportional to leaf dry weight during leaf growth. However, relevant studies demonstrated that foliar water mass disproportionately increases with increasing leaf dry weight. Although scaling relationships of leaf dry weight vs. leaf area for many plants were investigated, few studies compared the scaling relationship based on leaf dry weight with that based on leaf fresh weight. In this study, we used the data of three families (Lauraceae, Oleaceae, and Poaceae, subfamily Bambusoideae) with five broad-leaved species for each family to examine whether using different measures for leaf biomass (i.e., dry weight and fresh weight) can result in different fitted results for the scaling relationship between leaf biomass and area. Reduced major axis regression was used to fit the log-transformed data of leaf biomass and area, and the bootstrap percentile method was used to test the significance of the difference between the estimate of the scaling exponent of leaf dry weight vs. area and that of leaf fresh weight vs. area. We found that there were five species across three families (Phoebe sheareri (Hemsl.) Gamble, Forsythia viridissima Lindl., Osmanthus fragrans Lour., Chimonobambusa sichuanensis (T.P. Yi) T.H. Wen, and Hibanobambusa tranquillans f. shiroshima H. Okamura) whose estimates of the scaling exponent of leaf dry weight to area and that of leaf fresh weight to area were not significantly different, whereas, for the remaining ten species, both estimates were significantly different. For the species in the same family whose leaf shape is narrow (i.e., a low ratio of leaf width to length) the estimates of two scaling exponents are prone to having a significant difference. There is also an allometric relationship between leaf dry weight and fresh weight, which means that foliar water mass disproportionately increases with increased leaf dry weight. In addition, the goodness of fit for the scaling relationship of leaf fresh weight vs. area is better than that for leaf dry weight vs. area, which suggests that leaf fresh mass might be more able to reflect the physiological functions of leaves associated with photosynthesis and respiration than leaf dry mass. The above conclusions are based on 15 broad-leaved species, although we believe that those conclusions may be potentially extended to other plants with broad and flat leaves.
Highlights
The leaf may be the most important organ for plants to transfer solar energy to biological energy by means of photosynthesis
We found that there exists a significant scaling relationship between leaf dry weight and fresh weight for each species investigated (Figure 2)
Whether using leaf fresh weight or using leaf dry weight as the dependent variable, we found that the scaling relationship between leaf biomass and area holds at an individual species level or a family level (Figures 5–8)
Summary
The leaf may be the most important organ for plants to transfer solar energy to biological energy by means of photosynthesis. Under a constant investment of biomass to a leaf, a large surface will increase the contacting area to intercept the light that does undoubtedly enhance the photosynthetic potential [7]. If leaves evolve to be too large, water evaporation may be a problem, which can lead plants to die of dehydration. Large leaves can improve the light utilization efficiency of foliar surface, but they need more input of biomass to increase leaf area. Foliar water content (which is equal to the difference between leaf fresh weight and dry weight) plays an important role in photosynthesis. It does not proportionally increase with increasing leaf dry weight [5]. For different individual leaves, the ratios of leaf dry weight to fresh weight are not a constant
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