The distribution and dynamics of particles in the aquatic environment
play an important role in the modelling of bio-geochemical processes.
Previous work on the measurement of such particles, which vary in size
from tens of micrometres (individual cells) to several centimetres (a
ggregates such as 'marine snow'), has mainly used electronic counting
or conventional photography coupled with image analysis. Here we repor
t on an initial study of the use of holographic mensuration, otherwise
known as hologrammetry, for the enumeration, sizing and spatial distr
ibution determination of plankton. We present results on imaging plank
ton in water tanks using both in-line and off-axis pulsed-laser hologr
aphy. In this work, we have recorded in-line holograms in a volume of
2400 cm(3) of water with a resolution of better than 20 mu m and off-a
xis holograms in a volume of 36000 cm(3) with a resolution of 140 mu m
. In both cases, identifiable images of plankton were obtained and pre
cise spatial coordinates determined from the in-line holograms. Copyri
ght (C) 1996 Elsevier Science Ltd.