Jun-ya Shibata

Niche differentiation depends on body size in a cichlid fish: a model system of a community structured according to size regularities

1. Communities of different species are often structured according to niche differentiation associated with competitive interactions. We show that similar principles may apply on an ecological time-scale when individuals of a species having a wide size variation compete for resources, using the Lake Tanganyika cichlid Lobochilotes labiatus (5-30 cm). This species has a mouth especially adapted to suck up invertebrates from rock crevices. 2. Individuals defended feeding territories against similar-sized conspecifics, but not against different-sized ones. Thus, territories of similar-sized fish rarely overlapped, but up to a total of seven individuals (of seven size-ranks) had broadly overlapping territories with dissimilar-sized individuals. Comparison with expectation from the null model demonstrated clearly that observed size ratios between adjacent size rank were determined non-randomly regardless of sexual combinations. 3. Larger individuals took larger prey types of larger average size, but more importantly used wider rock crevices from which to suck food than smaller individuals. We calculated pairwise values of Schoeners index of diet overlap C(d) and the values of Levins index of diet breadth B(d) (prey type and prey size) and the same for the width of the rock crevices used for foraging (C(r) and B(r)). C(d) remained high among all combinations of the seven ranks. In contrast, C(r) declined strongly in combinations of adjacent ranks (to 0.27), and was low or zero among further different size ranks. This shows that fish with overlapping territories divided the food resources largely through foraging site partitioning. Accordingly, B(d) did not depend on the size difference to the nearest two coinhabiting fish, whereas B(r) did. 4. We conclude that this L. labiatus community is structured non-randomly: body size-dependent effects on foraging site usage result in competition with, and territorial exclusion of, similar-sized individuals, but not of dissimilar-sized individuals that were accepted as coinhabitants. Accordingly, mean body size ratios (large/small) between two adjacent ranks were consistently approximately 1.28 [standard deviation (SD) = 0.07, n = 104], while approximately 1.34 from the null model (SD = 0.34, n = 10 400 simulations). We discuss our results as an example of Hutchinsons rule, applied originally to size ratios of different species.

Living on the wedge: female control of paternity in a cooperatively polyandrous cichlid

Theories suggest that, in cooperatively breeding species, female control over paternity and reproductive output may affect male reproductive skew and group stability. Female paternity control may come about through cryptic female choice or female reproductive behaviour, but experimental studies are scarce. Here, we show a new form of female paternity control in a cooperatively polyandrous cichlid fish (Julidochromis transcriptus), in which females prefer wedge-shaped nesting sites. Wedge-shaped sites allowed females to manipulate the siring success of the group member males by spawning the clutch at the spot where the large males were just able to enter and fertilize the outer part of the clutch. Small males fertilized the inner part of the clutch, protected from the large aggressive males, leading to low male reproductive skew. Small males provided more brood care than large males. Multiple paternity induced both males to provide brood care and reduced female brood care accordingly. This is, to our knowledge, the first documented case in a species with external fertilization showing female mating behaviour leading to multiple male paternity and increased male brood care as a result.

Tracing anthropogenic inputs to production in the Seto Inland Sea, Japan--a stable isotope approach.

The Seto Inland Sea (SIS) receives waste runoff from ∼24% of Japans total population, yet it is also important in regional fisheries, recreation and commerce. During August 2006 we measured carbon and nitrogen stable isotopes of particulate organic matter (POM) and zooplankton across urban population gradients of the SIS. Results showed a consistent trend of increasing δ(15)N in POM and zooplankton from the western to eastern subsystems of the SIS, corresponding to increasing population load. Principal components analysis of environmental variables indicated high positive loadings of δ(15)N and δ(13)C with high chlorophyll-a and surface water temperatures, and negative loadings of low salinities related to inputs from large rivers and high urban development in the eastern SIS. Anthropogenic nitrogen was therefore readily integrated into the SIS food web from primary production to copepods, which are a critical food source for many commercially important fishes.

Diel patterns in reproductive events of the blenniid fish Petroscirtes breviceps in the temperate waters of southern Japan

Diel patterns in reproductive and feeding activities in the blenniid fish Petroscirtes breviceps, a nest-spawner that provides paternal care, were studied in southern Japan. Spawning primarily occurred in the early morning, and males occasionally mated with several females at the same time. Males may benefit from the simultaneous spawning of multiple females, as individuals are able to allocate the remainder of the daytime period to foraging. This hypothesis was tested using comparative studies of blenniid fishes. This study suggests that time cost associated with reproduction affects the diel pattern in spawning.

Male Isaza ( Gymnogobius isaza , Gobiidae) prefer large mates: a counterstrategy against brood parasitism by conspecific females

Like many other gobies, male Isaza (Gymnogobius isaza) which are endemic to Lake Biwa, Japan, exclusively care for broods in nests. This goby may have an optimal range of brood size (i.e., an average clutch size of about 2000–3000 eggs) within which they may produce larger numbers of hatching young because much larger broods may be destroyed by fungal infection before hatching. This optimal brood size hypothesis (Takahashi et al. in J Ethol 22:153–159, 2004) predicts that (1) after spawning, both males and females will refuse additional spawning by other gravid females (second females) to keep brood sizes within optimal ranges, (2) larger fish will repel second females more successfully than will smaller fish, and thus, (3) both sexes prefer larger mates. To examine these predictions, we first observed Isaza’s aggressive behaviors in aquaria and investigated whether fish attacked and repelled second females that were introduced after spawning, and, if so, what were the sizes of fish that did so. Large fish, regardless of sex, aggressively prevented second females from entering the nest, but second females larger than the pairs displaced the pair females forcibly and spawned eggs into their clutches. Mate choice experiments showed that males preferred large females. Although females’ choice of large mates was not confirmed, many results may largely coincide with the predictions of the optimal brood size hypothesis. Thus, Isaza males’ choice of large mates will be advantageous for defending against brood parasitism by conspecific females and for achieving optimal clutch size.

Application of stable isotope analysis for detecting filial cannibalism

A novel type of filial cannibalism has been reported in pipefishes, in which the eggs are absorbed through the males brood-pouch epithelium. The present study explored the applicability of stable isotope analysis for the detection of paternal brood cannibalism in the seaweed pipefish Syngnathus schlegeli. As expected, the δ15N values for liver, which conveys short-term dietary information about the recent reproductive season, were higher in males than in females. In contrast, the δ15N values for muscle, which reflects longer-term feeding habits that span both the reproductive and non-reproductive seasons, did not significantly differ between the sexes. This finding indicates that males occupy a higher trophic position than females only during the reproductive season, and it is probable that this difference is a result of paternal uptake of nutrients from embryos in the brood pouch.