Lh. Qiu et R. Bedding, A rapid method for the estimation of mean dry weight and lipid content of the infective juveniles of entomopathogenic nematodes using image analysis, NEMATOLOGY, 1, 1999, pp. 655-660
A method using computer image analysis for the estimation of dry weight, li
pid content, body size and length of individual infective juveniles (IJ) of
entomopathogenic nematodes (EN) is described. Images of IJ, captured using
a video camera, were digitalised and transferred to a computer for analysi
s. The longitudinal cross-sectional area of the nematode (Area), mean grey
level (MGL) and perimeter of the nematode image (Perimeter) were measured a
utomatically. Nematode samples having a range of sizes, mean dry weights an
d lipid contents, as well as a series of samples of different ages were exa
mined. It was found that: i) the index Area x MGL correlates well with the
mean dry weight of the nematode, which is in turn a good indicator of the t
otal energy reserve of the nematodes; ii) MGL correlates well with the lipi
d content las % dry weight) which is a good indicator of the quality of the
energy reserve; and iii) the perimeter of the nematode image can be used t
o estimate the length of an IJ. Compared to currently available methods, su
ch as direct measurement of mean dry weight or lipid content, computerised
image analysis gives more information concerning the samples tested and ena
bles variations in dry weight, lipid content, body size and length between
individual IJ to be estimated readily. A sample of 30 IJ can be examined in
30 to 60 min making this method ideal for quality control during productio
n, processing, formulation and storage of EN-based biopesticide products.