Wl. Zemke-white et Kd. Clements, Chlorophyte and rhodophyte starches as factors in diet choice by marine herbivorous fish, J EXP MAR B, 240(1), 1999, pp. 137-149
Citations number
49
Categorie Soggetti
Aquatic Sciences
Journal title
JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY
The primary aim of this study was to investigate differences in the digesti
bility of algal starches that could affect the diet choices of marine herbi
vorous fish. We examined nine species of algae from New Zealand. Five of th
ese species were dietary (i.e. species eaten by herbivorous fish); three ch
lorophytes Enteromorpha sp., Ulva rigida, and Caulerpa geminata, and two rh
odophytes Champia novae-zelandiae, and Gigartina livida. The other four spe
cies were nondietary, one chlorophyte Caulerpa flexilis, and three rhodophy
tes, Osmundaria colensoi, Plocamium costatum, and Asparagopsis armata. This
study consisted of three main parts. First, we measured the ash, protein,
lipid and starch content of the algae. Second, we examined the susceptibili
ty of the algal starch to hydrolysis by digestive enzymes from four species
of New Zealand marine fish. Samples of the dried, ground algae were digest
ed with an extract of digestive enzymes from the herbivores Parma alboscapu
laris, Aplodactylus arctidens and Aplodactylus etheridgii, and the omnivore
Girella tricuspidata. Third, we determined the ability of the enzyme extra
cts from the fish to hydrolyse the starch components amylose, amylopectin,
and maltose. The ash, protein, lipid and starch content varied significantl
y among the algal species. The rate of starch hydrolysis from all four enzy
me extracts also varied significantly among the algal species. Enzyme extra
cts from all fish species hydrolysed amylose more readily than amylopectin,
and maltase activity was found in all enzyme extracts. There was no signif
icant separation between dietary and nondietary algae on the basis of ash,
lipid, or starch content, or rate of starch digestion. There was significan
t separation between dietary and nondietary algae on the basis of two varia
bles: (1) protein content, which was highest in nondietary algae, and (2) w
hen both starch content and the rate of starch digestion (glucose produced
g(-1) algae h(-1)) were taken into account, dietary algae was significantly
higher than nondietary algae. We draw two main conclusions from this study
. First, both starch content and starch digestibility may play a role in st
ructuring the diet choices of marine herbivorous fishes. Second, measuremen
ts of either total soluble carbohydrates, or total storage polysaccharides
will not reflect assimilable energy in algivorous fish. Estimation of assim
ilable energy requires an examination of the nutritional components of the
algae in relation to the digestive physiology of the herbivore. (C) 1999 El
sevier Science B.V. All rights reserved.