Abstract
A mechanistic physiological model of the appendicularian Oikopleura dioica has been built to represent its three feeding processes (filtration, ingestion and assimilation). The mathematical formulation of these processes is based on laboratory observations from the literature, and tests different hypotheses. This model accounts for house formation dynamics, the food storage capacity of the house and the gut throughput dynamics. The half-saturation coefficient for ingestion resulting from model simulations is approximately 28 and is independent of the weight of the organism. The maximum food intake for ingestion is also a property of the model and depends on the weight of the organism. Both are in accordance with data from the literature. The model also provides a realistic representation of carbon accumulation within the house. The modelled half-saturation coefficient for assimilation is approximately 15 and is also independent of the weight of the organism. Modelled gut throughput dynamics are based on faecal pellet formation by gut compaction. Model outputs showed that below a food concentration of 30 , the faecal pellet weight should represent a lower proportion of the body weight of the organism, meaning that the faecal pellet formation is not driven by gut filling. Simulations using fluctuating environmental food availability show that food depletion is not immediately experienced by the organism but that it occurs after a lag time because of house and gut buffering abilities. This lag time duration lasts at least 30 minutes and can reach more than 2 hours, depending on when the food depletion occurs during the house lifespan.
Highlights
IntroductionAppendicularians are thought to play a significant role in both the carbon cycle and ecosystem structuration [1,2]
In pelagic ecosystems, appendicularians are thought to play a significant role in both the carbon cycle and ecosystem structuration [1,2]
If we estimate the weight of this gut filled with spherical particles of 5 mm in diameter and containing 8 pgCparticle{1, we find a value of 0.35 mgC for an organism weight of 3.4 mgC
Summary
Appendicularians are thought to play a significant role in both the carbon cycle and ecosystem structuration [1,2]. The house must be replaced several times during the organism’s life, and the weight of each house represents a substantial proportion of the organism’s body weight [5,9,10] Many houses and their detritus are released into the environment during the organismal life cycle, which can make a major contribution to marine snow [11,12]. Because of their high filtration rate [5,6], appendicularians produce a large quantity of faecal pellets [1,6] that contribute to carbon export. This large production of sinking discarded houses and faecal pellets [9,11,13] can represent a strong carbon flux because appendicularians can be present at high densities (up to 53,000 indm{3 for Oikopleura dioica [14]; up to 3,565,000 indm{3 for Oikopleura longicauda [3]; up to several hundred indm{3 for Oikopleura vanhoeffeni [15])
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