Leaf area (LA) is associated with m

Leaf area (LA) is associated with many agronomic and
physiological processes including growth, photosynthesis,
transpiration, light interception, and energy balance
(Rouphael and Colla, 2004; 2005; Antunes et al., 2008;
Kandiannan et al., 2009; Spann and Heerema, 2010;
Rouphael et al., 2010a). Leaf area can be measured by
destructive or nondestructive measurements. Many
methods have been devised to facilitate the measurement
of LA. However, these methods, including those
of tracing, blueprinting, photographing, or using a
conventional planimeter, require the excision of leaves
from the plants. It is therefore not possible to make
successive measurements of the same leaf. Plant canopy
is also damaged, which might cause problems to other
measurements or experiments. Therefore, a nondestructive
method for measuring LA is required by agronomists and
physiologists. Accurate, nondestructive measurements
permit repeated sampling of the same leaves over
time and exclude biological variation in destructive
methods (De Swart et al., 2004). Especially when using
unique plants, for example in genetically segregating
populations, nondestructive measurements are of a great
value. A modeling approach involving linear relationships
between LA and one or more dimensions of the leaf
(length and width) is an inexpensive, rapid, reliable, and
nondestructive method for measuring LA and would be
more advantageous than many of the methods mentioned
above (Rouphael et al., 2007; Tsialtas et al., 2008).