Unique postural control of upside-down swimming catfish,Synodontis nigriventris,not affected by the change of gravity

In general, most fishes maintain a swimming posture with the dorsal side towards the water surface under normal gravity condition. In contrast to normal fishes, a catfish Synodontis nigriventris, shows a unique postural control. The catfish keeps its posture with the ventral side towards the water surface and the dorsal side towards water bottom under normal gravity. This evidence leads one to assume that the upside-down posture of the catfish is controlled by gravity sensation in a manner different from that of other fishes. However, it has remained unclear to date whether the gravity sensation contributes to the unique postural control of this catfish. We examined its postural control in intact and labyrinth-removed catfish using a clinostat which generates a specific gravity environment (pseudo-microgravity) on earth. In addition, we examined its postural control under microgravity during parabolic flights.     

Postural control under clinorotation in upside-down catfish, Synodontis nigriventris.

The upside-down catfish Synodontis nigriventris has a unique habit of swimming and resting upside-down in free water. This behavior leads to the assumption that the catfish has a specific gravity information processing system. We examined the postural control behaviors in the catfish under clinorotation which is usually used for producing pseudo-microgravity. Synodontis nigriventris kept its body posture at a stable area of the rotated flask in which the catfish was kept, when it was clinorotated at the rate of 60 rpm. In contrast to Synodontis nigriventris, a related species, Corydoras paleatus, did not show such steady postural control. When the flask was rotated at a lower rate of 30 rpm or a higher rate of 100 rpm, Synodontis nigriventris as well as Corydoras paleatus showed a considerable disturbed control of body posture. In this condition, they were frequently rotated with the flask. These findings suggest that Synodontis nigriventris has a high ability to keep upside-down posture and the gravity sensation in this catfish is likely to contribute to its different postural control from that of many other fishes.     

Correlation between body color and behavior in the upside-down catfish,Synodontis nigriventris

• 1.1. Unlike common fishes and as its Latin name implies, the upside-down catfish, Synodontis nigriventris, possesses dark ventral skin. Microscopic observation reveals that melanophores are present on both the ventral and the dorsal skin but differ in size and density of distribution.
• 2.2. The darkness of both sides of the fish changes in accordance with that of the background.
• 3.3. At night, the fish are very active and the body becomes pale. The change in color is more noticeable in the dorsal than the ventral skin.
• 4.4. When melatonin was added to the bathing water, the fish became pale and swam restlessly even when they were exposed to the black background.
• 5.5. It was found that the catfish preferred the black background to the white one.

     

High transmittance of X-rays in the utricular otolith of upside-down swimming catfish, Synodontis nigriventris.

The upside-down swimming catfish (Synodontis nigriventris) has unique behavior, i.e., it frequently shows a stable upside-down posture during swimming and resting. To examine whether the unique postural control in S. nigriventris results from the characteristics of the vestibular organ, we observed the morphological aspects of the otolith and the orientation of sensory hair cells in the utricle. Soft X-ray densitometry analysis showed that the transmittance of soft X-rays in the otolith of S. nigriventris was higher than that in a closely related species (Synodontis multipunctatus) belonging to Synodontis family, goldfish (Carassius auratus) or miniature catfish (Corydoras paleatus) which shows upside-up swimming. The higher transmittance of soft X-rays suggests that the density of the otolith in S. nigriventris is lower than that in S. multipunctatus, C. auratus or C. paleatus. It is possible that the low density of the otolith may have a relation to the control of the unique upside-down posture of S. nigriventris. The hair cells in S. nigriventris were present at the ventral to ventro-lateral site of the utricular epithelium, forming a single hair cell layer as in the other 3 species of fish. The orientation of the sensory hair cells does not appear to cause the unique postural control.     

The effect of clinorotation on vestibular compensation in upside-down swimming catfish.

Upside-down swimming catfish Synodontis nigriventris can keep upside-down swimming posture stably under pseudo-microgravity generated by clinostat. When the vestibular organ is unilaterally ablated, the operated S. nigriventris shows disturbed swimming postures under the clinorotation condition. However, about 1 month after the operation, unilateral vestibular organ-ablated S. nigriventris shows stable upside-down swimming posture under the condition (vestibular compensation). In contrast, a closely related upside-up swimming catfish Synodontis multipunctatus belonging to same Synodontis family can not keep stable swimming postures under the clinorotation conditions. In this study, we examined the effect of continuous clinorotation on vestibular compensation in intact and unilateral vestibular organ-ablated Synodontis nigriventris and Synodontis multipunctatus. After the exposure to continuous clinorotation, the postures of the catfish were observed under microgravity provided by parabolic flights of an aircraft. Unilateral vestibular organ-ablated S. nigriventris which had been exposed to continuous clinorotation showed stable swimming postures and did not show dorsal light reaction (DLR) under microgravity. This postural control pattern of the operated catfish was similar to that of intact catfish. Intact and unilateral vestibular organ-ablated S. multipunctatus showed DLR during microgravity. Our results confirmed that S. nigriventris has a novel balance sensation which is not affected by microgravity. DLR seems not to play an important role in postural control. It remains unclear that the continuous clinorotation effects on vestibular compensation because we could not keep used unilateral vestibular organ-ablated fish alive under continuous clinorotation for uninterrupted 25 days. This study suggests that space flight experiments are required to explore whether gravity information is essential for vestibular compensation.     

Postural control mechanisms in the upside-down catfish (Synodontis nigriventris)

The catfishSynodontis nigriventris normally swims upside-down but can assume any posture in response to a substrate it swims close to. Postural reflexes of the body and the eyes, labyrinthine anatomy and passively maintained posture were investigated to obtain indications for possible mechanisms controlling the peculiar postural behavior of this fish. Saccade-like resetting movements of the eyes during counter-roll to body tilt about the longitudinal axis, and maintained tilted swimming positions in blinded fish suggest that these animals reset their vestibular CNS circuits to zero when in tilted positions.Synodontis nigriventris is thus able to maintain any posture without interference from tilt-counteracting vestibular reflexes. The normal upside-down swimming apparently results from a central bias for this position and a supporting ventral light response.We conclude that if the reafference principle applies to the phenomena investigated, the efference copy may be fed through an integrator before reaching vestibular reflex circuits.     

Comparative study of otolith organs between two species of upside-down swimming catfish Synodontis nigriventris showing converse swimming postures

To clarify whether the unique postural control of the upside‐down swimming catfish (Synodontis nigriventris, family Mochokidae) is related to the histological characteristics of the otolith organs, we performed light microscopic observation of the utricle, the saccule and the lagena. The histological aspects of the otolith organs were compared between S. nigriventris and Synodontis multipunctatus, which belong to the same genus. S. multipunctatus usually shows upside‐up swimming posture except for feeding behaviour near water surface. As controls, we additionally used a miniature catfish, Corydoras paleatus and goldfish, Carassius auratus, which shows upside‐up swimming posture. We concluded that the structural aspects of the otolith organs did not cause the unique postural control of S. nigriventris. Light microscopic observation clarified the following aspects: (1) The utricle of S. nigriventris was located at the anterior region of the otocyst and under the semicircular canals, and the saccule and the lagena were located at the posteroventral region of the otocyst like those of S. multipunctatus and the other two fishes. (2) The hair cells of the utricle were arranged on the horizontal plane of the fishes with a variation in cell size at the ventral and ventrolateral sites in S. nigriventris, S. multipunctatus and the other two fishes. (3) The hair cells of the saccule and lagena of S. nigriventris, S. multipunctatus and C. auratus presented perpendicular to the horizontal plane of the fish. (4) Region‐specific differences in the size and shape of the hair cells of S. nigriventris were observed along the three‐dimensional axes of the otolith organs like those of S. multipunctatus and the other two fishes. It is unlikely that the unique postural control of upside‐down catfish is related to the localization of the utricle, the saccule and the lagena and the distribution of the different types of hair cell of the otolith organs. Furthermore, the distribution of the hair cells suggests that the otolith organs in S. nigriventris can detect three‐dimensional postural changes like the organs of other fishes showing generally observed upside‐up swimming posture.     

重力对锥形血管中血流压力的影响——基于考虑体位改变的三维流固耦合数学模型

重力是体位改变过程中最基本的生物力学刺激因素．血流压力是表征心血管功能状态的一个基本指标．目前,体位改变影响心血管系统的确切内部机制尚不清楚．为此,采用在流体和固体方程中分别引入体力项的方法,建立一个基于血流动力学概念的三维流固耦合数学模型,用以研究体位改变,确切量化重力对血流压力的影响．通过数值计算,得到以下结果．水平卧位条件下：a．单一血管中血流压力由无重力影响的轴对称二维分布变为重力影响下的三维不对称分布;b．随着进出口压差由小变大,重力对压力分布和极值的影响由大变小,当压差值分别达到10 665.6 Pa(80 mmHg)和2 666.4 Pa(20 mmHg)时,重力的影响就不再随进出口压差增大而变化;对三维单一流体,重力影响的总体趋势类似．对正、倒直立位,压力均为二维轴对称分布,其重力影响强度约为水平卧位的2倍以上．结果表明：基于血流动力学概念,引入体力项,建立三维流固耦合模型为研究体位改变提供了一种新思路,重力对单一血管中血流压力分布和大小的影响因体位不同而不同,并与进出口压差密切相关,提示,若血管进出口压差较小,忽略重力影响,不考虑体位改变,以二维轴对称模型来研究血管中血流状态,须谨慎解释所得结果．     

Retinofugal and retinopetal connections in the upside-down catfish (Synodontis nigriventris)

Summary The retinofugal and retinopetal connections in the upside-down catfish Synodontis nigriventris were studied by use of the horseradish-peroxidase (HRP) techniques, autoradiography, and degeneration-silver methods. An unusual retinal projection to the torus semicircularis as well as projections to the retina from three different sources in the brain are described. After intra-ocular injections of HRP, labeled cells were found in the optic tectum, the dorsomedial optic nucleus and one of the pretectal nuclei. These new findings support the basic hypothesis (i) that neuronal connections are more extensive in primitive brains, and (ii) that the evolutionary development of more complex brains involves the loss of some selected connections.     

Feeding behaviour of Japanese flounder larvae under laboratory conditions

Tank–reared Japanese flounder larvae, Paralichthys olivaceus , had a major feeding peak in the morning and a secondary peak in the afternoon throughout the larval development, with light being the primary factor regulating their feeding activity. The larvae consumed rotifers in preference to Artemia for up to 10 days, after which the food preference shifted to Artemia . Feeding rates of the larvae prior to 10 days post–hatch depended on prey density, but in the old larvae, feeding rates were independent of prey density. Maximum feeding rate occurred at 19° C. The occurrence of the attack posture, after its onset at first feeding (2 days post–hatch), increased up to 25 days, began to decrease when the larvae prepared to settle down, then disappeared after settlement. The occurrence frequency of the attack posture was positively related to fish density, but inversely related to starvation duration, and occurred most frequently at 19° C. This posture depended on prey density in larvae prior to 10 days post–hatch, but became independent of prey density as the larvae developed. It was obvious that, for flounder larvae, attack posture was a behavioural character closely related to feeding and subject to larval development and environmental factors.     

Picture perception in monkeys and pigeons: Transfer of rightside-up versus upside-down discrimination of photographic objects across conceptual categories

Monkeys and pigeons were trained to discriminate between normally oriented full frontal pictures of humans and upside-down reversals of the same pictures as stimuli. Monkeys displayed a high level of transfer to the new pictures of full frontal and rear views of humans and silhouettes, but failed to transfer to the close-up and far human faces. Pigeons showed poorer transfer to the silhouettes and higher transfer to the far human faces than did monkeys. Further transfer tests were performed with non-human pictures, including monkeys, birds, mammals, and man-made objects. Pigeons failed to transfer to the non-human pictures. This indicates that the pigeons had learned to classify the pictures based on some concrete features specific to the humans and that the transfer to the new versions of human pictures could be explained by simple stimulus generalization based on perceptual similarity. Two out of four monkeys did transfer fairly well to the non-human pictures, except for the man-made objects. High levels of transfer to the non-human natural pictures suggested that the monkeys classified the pictures on the basis of the orientation of objects represented by the pictorial displays. A preliminary report was presented by the first author (M. J.) at the 13th Congress of the International Primatological Society, Nagoya, Japan, 1990. The present research was supported in part by a Grant-in-Aid for General Scientific Research, the Ministry of Education, Science, and Culture, No. 02301017 (principal researcher:Tadasu Oyama, Nihon University) to M. J. The monkey experiments were conducted at the Primate Research Institute, Kyoto University, and the pigeon experiments at the Department of Psychology, Chiba University.     

The effect of food concentration and population density of mosquito larvae (<Emphasis Type="Italic">Anopheles stephensi</Emphasis>, Diptera,Culicidae) on their feeding behavior

The influence of food concentration and population density on the feeding behavior of Anopheles stephensi (Diptera, Culicidae) larvae has been shown experimentally. Lack of food resulted in larvae switching from sweeping the surface film to scraping the substrate off the bottom. The effect of the larval population density was more complex and depended on the food concentration. As a result, the ratio between the larvae keeping to the surface and to the bottom of the vessel was determined by interactions which led to their redistribution between the two trophic niches: the surface film and the bottom substrate. The traits observed ensure plasticity in the use of trophic resources within a water body.     

Feeding ecology and postural behaviour of the three-toed sloth (Bradypus variegatus flaccidus) in northern Venezuela

We studied the diet, activity budget, vertical ranging, and postural behaviour in relation to weather of the three-toed sloth (Bradypus variegatus flaccidus) in disturbed montane forest remnants (1150 m asl) in northern Venezuela. Sloths spent most (72.9%) of their time resting and had a nearly exclusive (99.4%) leaf diet. While resting they assumed a sitting – not hanging – posture mostly (90.2% of observations). Species of three families, Clethraceae, Cecropiaceae, and Clusiaceae accounted for 77% of feeding records. Young leaves (67.2%) accounted for most of the leaf diet. Activity and posture were dependent on weather conditions. Sloths fed more often during mid-day hours and tended to rest more at dawn and dusk. In northern Venezuela sloths tended to use more frequently the upper strata of the canopy, while in warmer lowland sites they use intermediate levels more often. They adopted postures that maximized exposure of ventral surfaces to incident solar radiation when sunny, but minimized their surface area by huddling when cloudy, foggy or rainy. We propose that sunning behaviour of sloths may speed up their fermentation rate, and ultimately, might have been an important selective factor in the evolution of derived upside-down posture of sloths.     

Social stress decreases marking behavior independently of testosterone in Mongolian gerbils

This study examined the endogenous androgen regulation of the marking behavior in Mongolian gerbils (Meriones unguiculatus). In the first experiment, developmental changes of fecal testosterone levels, ventral gland growth, and the marking frequency of male gerbils were investigated. From 9 weeks of age, marking frequency increased with increases in fecal testosterone levels and ventral gland size. The ventral gland size and marking frequency were significantly correlated to the fecal testosterone level. In the second experiment, we hypothesized that reduction in the marking frequency of subordinate males after social confrontations was controlled by a decrease in the circulating testosterone level, and we followed changes in marking frequency, endocrine status, and ventral gland size after social confrontations in which two adult male gerbils established their social ranks by fighting. As expected, marking frequency and ventral gland size were significantly related to social rank, that is, marking frequency was higher among dominant gerbils and lower among subordinates. In addition, fecal corticosterone levels among subordinates were higher than those of dominant animals. However, neither the fecal and plasma testosterone levels, nor testis size, differed between dominant and subordinate gerbils. These results revealed that endogenous androgen played a role in regulating marking behavior and ventral gland size during the developmental stage and that the reductions in marking frequency and ventral gland size occurring in subordinate males after social confrontations were not directly regulated by androgen changes.     

Monopolar electric discharges of the catfish <Emphasis Type="Italic">Parasilurus asotus</Emphasis> (Siluridae,Siluriformes)

Electric discharges in the catfish Parasilurus asotus are registered for the first time. The discharges are monopolar pulses of a 50–300 ms duration which corresponds to the frequency characteristics of ampoules of electroreceptors in these catfish. Electric generation is discovered only upon the aggressive-defensive behavior of not less than two species. In solitary fish no discharges were observed neither at prolonged continuous registration (longer than 24 h each) nor at mechanical stimulation. The hypothesis is discussed of a potential mechanism of active (under use of their own electric discharges) monitoring of water conductivity with a relative sensitivity on the order of 0.0002%. This hypothesis may be applied to an explanation of anomalous group behavior of these catfish before earthquakes.     

Brood parasitism of an open-water spawning cichlid by the cuckoo catfish

The cuckoo catfish Synodontis multipunctatus and S. grandiops are endemic to Lake Tanganyika and the only known nonavian vertebrates that exhibit obligate interspecific brood parasitism. Seven maternal mouth-brooding cichlid fish species are reported to be natural hosts of the parasitic catfish and share a common reproductive behaviour that the catfish exploits: cichlid females spawn eggs on the bottom, allowing the catfish female to place her eggs near the cichlid eggs, and the cichlid females collect the catfish eggs by mouth together with their own eggs. However, so far it has not been reported that the cuckoo catfish exploit different spawning behaviours. The genus Cyprichromis consists of five maternal mouth-brooding species endemic to Lake Tanganyika, most of which spawn and collect eggs in open water. This study reports that the cuckoo catfish also parasitizes the open-water spawning Cyprichromis coloratus, although it may not be a regular host.     

Routes of heat transfer in two teleosts,Ictalurus punctatus andLepomis macrochirus

Synopsis The proportion of heat transferred via the gills (Pg) was estimated for two morphologically divergent freshwater teleosts,Ictalurus punctatus (channel catfish) andLepomis macrochirus (bluegill). Methodology involved monitoring a fish's core temperature while its gills and skin surface were perfused with water of different temperatures. In both species, between 20 and 40 percent of heat was transferred via the gills. Pg depended on direction of the gill-skin temperature differential, suggesting that both species altered distribution of blood flow in response to polarity of the temperature differential. Pg of channel catfish was correlated positively with body mass; whereas, Pg and mass were uncorrelated in bluegill.     

基于Miseq测序技术分析黄颡鱼不同养殖模式下池塘微生物群落结构多样性

利用Miseq测序技术分析了黄颡鱼Pelteobagrus fulvidraco (Richardson)三种养殖模式[(黄颡鱼单养、黄颡鱼混养草鱼(Ctenopharyngodon idellus, Valenciennes)和黄颡鱼混养草鱼、鳙(Aristichthys nobilis, Richardson)、鲢(Hypophthalmichthys molitrix, Valenciennes)]下养殖水体及底泥微生物群落结构多样性。结果显示, 12个样本共获得了655100条合格16S rDNA序列, 每个样本获得的有效序列数目为41256—77508, 可归纳为608—3686个分类操作单元。α多样性指数结果表明, 在三种养殖模式下末期水体的微生物群落丰度和多样性均高于养殖初期, 黄颡鱼混养草鱼模式下水体的群落丰度最高(Chao1指数: 2199.25, ACE指数: 2374.60), 黄颡鱼混养草鱼、鲢、鳙模式下水体微生物群落多样性最高(Shannon指数: 4.88, Simpson指数: 0.021)。样本聚类分析及PcoA主坐标分析结果表明, 黄颡鱼单养及黄颡鱼、草鱼混养模式下的水体和底泥的菌群组成及群落结构相似性较高, 黄颡鱼、草鱼、鲢、鳙混养模式下样本单独形成一类。从门水平的比较分析发现, 所有样本检测到细菌有8门, 其中变形菌门(Proteobacteria)的物种丰度在所有样本中占绝对优势地位。放线菌门(Actinobacteria)在养殖末期升高成为水体中占比第二的优势门, 尤其是黄颡鱼混养草鱼模式下(37.6%)。黄颡鱼在单养模式下, 养殖末期水体拟杆菌门(Bacteroidetes)细菌含量均明显增加(1.95%到10.98%)。从属水平的比较分析发现, 各样本之间的优势属组成有较大差异, 其中黄颡鱼在单养模式下水体样本中气单胞菌属(Aeromonas)在养殖末期丰度占优势(5.81%)。从微生物群落结构和多样性的角度考虑, 黄颡鱼、草鱼、鲢、鳙混养是一种值得推荐的养殖模式。     

Chemical cues related to conspecific size in pintado catfish, Pseudoplatystoma coruscans

The pintado (Pseudoplatystoma coruscans) is a ferocious carnivorous catfish with evident cannibalistic behaviour; its nocturnal habits are related to its ability to use predominately chemical sensorial modalities. This study investigated whether the pintado distinguishes conspecifics of different body sizes using chemical cues, which may reflect different physiological conditions such as hunger or stress. Pintados were observed when receiving water conditioned by either larger or similar-size conspecifics. A control group consisted of pintados receiving unconditioned water. Twelve repetitions were used for each condition. Feeding-like behaviours were investigated in the receiver fish and showed that they responded only to the conditioned water. Furthermore, a higher frequency of responses occurred when the water was conditioned by a similar-size conspecific. Thus, it is concluded that pintados are able to recognize conspecific size by chemical cues related to size and that this ability contributes to the individual's decision making on whether to approach or to avoid the conspecific.     

Observations on the food and feeding habits of the African electric catfish Malapterurus electricus (Gmelin)

The diet and feeding habits of the African electric catfish Malapterurus electricus in their natural habitat in Lake Kainji, and in the River Niger, downstream of Kainji dam, Nigeria, have been described and compared. The study showed the electric catfish is a voracious piscivore. It feeds on cichlids, clupeids, schilbeids and other available fish species. From the size distribution, numbers and composition of the small prey fish species examined in electric catfish stomachs, it was inferred that the powerful high-frequency electric organ discharge volleys serve as major predatory mechanism.