Induction of rhythmic contraction in canine tracheal smooth muscle

Na(+)-K+ ATPase activity of the canine tracheal smooth muscle membrane is responsible for the electrogenic pumping of Na+ and K+ ions. It has been shown that this activity results in muscle relaxation. Based on the results of the current study, we suggest that prolonged electrical stimulation induces increased Na(+)-K+ ATPase activity in isolated tracheal smooth muscle. Tracheal smooth muscle pretreated with prolonged electrical stimulation developed graded mechanical activity when subsequently treated with histamine, serotonin, acetylcholine, or 80 mM K+. This increased isometric tension was interrupted by rhythmic activity, which was elicited by histamine or serotonin but not by acetylcholine or 80 mM K+ stimulation. The spontaneous phasic activity was not inhibited by atropine or propranolol but was totally inhibited by 10(-6) M ouabain. These results suggested that the relaxation phase of rhythmic contraction in response to histamine and serotonin stimulation could be the result of stimulated Na(+)-K+ ATPase activity.     

Parallel pathways coordinate crawling in the medicinal leech,Hirudo medicinalis

Changes in the behavior of crawling leeches were investigated after various kinds of manipulations, including selective transection or inactivation of body parts, as well as partial or complete transection of the central nerve cord, using a frame-by-frame analysis of video tapes of the crawling animals. From these studies, we found that: 1. Leeches made rhythmic crawling cycles even after their suckers were prevented from contacting the substrate by covering them over with glue. Hence, engagement and disengagement of the suckers are not necessary links in the crawling cycle. 2. Cutting the small, medial connective (Faivre's nerve) had no influence on crawling, but contraction during the whole-body shortening reflex was interrupted. Thus two behaviors which use the same motor output (i.e., whole-body shortening and the contraction phase of crawling) are mediated by two different pathways. 3. Cutting all the connectives between two ganglia in the middle of the leech resulted in a loss of coordination between the parts of the animal on either side of the cut. Therefore, temporally coordinated sucker activity must be mediated through these connectives. 4. Pieces of leech bodies produced by complete transection produced rhythmic crawling cycles as long as the pieces included the head or tail plus 2–4 adjacent midbody segments. In all cases, the crawling movements progressed without delays as the movements reached the cut ends. Pieces of animals that included only midbody segments did not produce crawling movements. 5. These results can be explained by a model composed of intersegmental pathways for both elongation and contraction, circuits in the head and tail brains that switch between elongation and contraction, and both ascending and descending inhibitory influences that determine when the cycle switches from elongation to contraction and back again.Abbreviations C1-C7 caudal segments 1 through 7 (comprise the tail sucker) - Circ. circular muscle(s) - CD circular element driver - CPG central pattern generator - ED elongation element driver - El elongation - El _init initiation of elongation - FN Faivre's nerve - fs + front sucker attachment - s— front sucker release - Long longitudinal muscle(s) - M1-M21 midbody segments 1 through 21 - R1-R4 rostral segments 1 through 4 (comprise the head) - rs + rear sucker attachment - rs rear sucker release - Sens sensory input - SR stretch receptors(s) - ti tonic inhibition     

Inherent rhythmcity and interstitial cells of Cajal in a frog vein

Interstitial cells of Cajal are responsible for rhythmic contractions of the musculature of the gastrointestinal tract and blood vessels. The existence of these cells and spontaneous rhythmicity were noticed in amphibian vein and the findings are reported in this paper. The postcaval vein was identified in the frog, Rana tigrina and was perfused with amphibian Ringer solution after isolation. Contractile activity was recorded through a tension transducer connected to a polygraph. The isolated postcaval vein showed spontaneous rhythmic activity. Addition of cold Ringer solution decreased, while warm Ringer increased, the rate of contraction. Adrenaline caused inhibition of rhythmic activity at a dosage that increased the rate of isolated sinus venosus. Sections of the postcaval vein, when stained supravitally with methylene blue, showed the presence of interstitial cells of Cajal. Photic stimulation of the vein in the presence of methylene blue led to a significant decrease in the rate of spontaneous beating of the vein. These findings indicate that the postcaval vein of frog is capable of inherent rhythmcity, which is dependent on the interstitial cells of Cajal but is independent of the sinus venosus.     

Peculiarities of somatovisceral reactions in early postnata ontogenesis

To reveal possible ways of the somatovisceral interaction, in the 0–5-day, 11–13-day and one-month-old rats, reactions of the spontaneous contractile activity of the gastric antrum were studied to a rhythmic stimulation of the tibial nerve for 30 s with frequency 30 imp/s and strength equal to 3–4 thresholds of the gastrocnemial muscle motor response. Only the stimulations of the central, but not of peripheral, nerve segments were effective, which indicates the reflex nature of the reactions. It has been established that in the process of development, a shift occurs of the predominantly inhibitory reactions to predominantly activating the gastric wall reactions. Similar data were obtained by skin pain stimulation in the region of the tail base. Thus, the age-dependent change of direction of the observed somatoautonomous reactions can be produced by stimulation of different high-threshold somatic afferents. The efferent pathway both of inhibitory and of stimulatory reactions is mediated mainly, but not exclusively, by the gastric branches of the vagus nerve, which is confirmed by consequences of vagotomy and of section of the splanchnic nerve. As a whole, the results of the study can suggest that one of possible pathways of effects of the skeletal muscle contraction on rhythmic activity of the gastrointenstinal tract can be activation of muscle receptors.     

Electrical potentials from the eye and optic nerve of Strombus: effects of electrical stimulation of the optic nerve.

1. Photic stimulation of the mature eye of Strombus can evoke in the optic nerve 'on' activity in numerous small afferent fibres and repetitive 'off' bursts of afferent impulses in a smaller number of larger fibres. 2. Synchronous invasion of the eye by electrically evoked impulses in small optic nerve fibres (apparently the 'on' afferents, antidromically activated) can evoke a burst of impulses in the larger 'off' fibres which propagate away from the eye. Invasion of the eye via one branch of optic nerve can evoke an answering burst in another branch. 3. Such electrically evoked bursts are similar to light-evoked 'off' bursts with respect to their impulse composition, their ability to be inhibited by illumination of the eye, and their susceptibility to MgCl2 anaesthesia. 4. Invasion of the eye by a train of repetitive electrically evoked impulses in the absence of photic stimulation can give rise to repetitive 'off' bursts as well as concomitant oscillatory potentials in the eye which are similar to those normally evoked by cessation of a photic stimulus. 5. The electrically evoked 'off' bursts appear to be caused by an excitatory rebound following the cessation of inhibitory synaptic input from photoreceptors which can be antidromically activated by electrical stimulation of the optic nerve. 6. The experimental results suggest that the rhythmic discharge of the 'off' fibres evoked by the cessation of a photic stimulus is mediated by the abrupt decrease of inhibitory synaptic input from the receptors.     

Electrophysiological properties of the membrane of smooth muscle cells from bovine lymphatic vessels

Using single sucrose gap technique, studies have been made on electrophysiological properties of the membrane in myocytes of the lymphatic vessels in the ox Bos taurus. It was shown that electrical stimulation does not induce tetanic contraction in the myocytes. The results obtained indicate strong similarity between electrophysiological properties of the myocytes in the lymphatic vessels and those of the myocardial cells in homoiotherms. Refractory state which follows the action potential, accounts for a possibility of rhythmic activity in the myocytes of the lymphatic vessels. Both single and rhythmic stimulation produce in the myocytes the "all-or-none" response. The main factor determining the level of excitability in the myocytes is the intravascular pressure. The latter exerts its influence on contractile activity via changes in the electrical activity (the membrane potential, duration of the plateau phase and the number of fast peak potentials on this plateau).     

Mechanisms of postinhibitory rebound and its modulation by serotonin in excitatory swim motor neurons of the medicinal leech

Postinhibitory rebound (PIR) is defined as membrane depolarization occurring at the offset of a hyperpolarizing stimulus and is one of several intrinsic properties that may promote rhythmic electrical activity. PIR can be produced by several mechanisms including hyperpolarization-activated cation current (I_h) or deinactivation of depolarization-activated inward currents. Excitatory swim motor neurons in the leech exhibit PIR in response to injected current pulses or inhibitory synaptic input. Serotonin, a potent modulator of leech swimming behavior, increases the peak amplitude of PIR and decreases its duration, effects consistent with supporting rhythmic activity. In this study, we performed current clamp experiments on dorsal excitatory cell 3 (DE-3) and ventral excitatory cell 4 (VE-4). We found a significant difference in the shape of PIR responses expressed by these two cell types in normal saline, with DE-3 exhibiting a larger prolonged component. Exposing motor neurons to serotonin eliminated this difference. Cs⁺ had no effect on PIR, suggesting that I_h plays no role. PIR was suppressed completely when low Na⁺ solution was combined with Ca²⁺ -channel blockers. Our data support the hypothesis that PIR in swim motor neurons is produced by a combination of low-threshold Na⁺ and Ca²⁺ currents that begin to activate near –60 mV.     

Analysis of the mechanism of dinoflagellate flagella contraction-relaxation cycle

Summary— Dinoflagellates possess two flagella. One of them, the longitudinal flagellum, retracts from time to time in some species, such as Ceratium and Peridinium. Additional structures which run along the axoneme seem to be responsible for this particular behaviour. The retraction which is rapid (less than 60 ms) may be subdivided into several steps: i) the undulating movement stops; ii) the flagellum appears then as a jagged line during 20 ms; iii) finally a rapid retraction (20 ms) takes place, the flagellum being folded 20 times inside the cylindrical flagellar pocket. The measurements on video-records suggest that the R-fibre shortens to 30% of its original length. The contraction and relaxation mechanism of nanofilaments is proposed to be through coiling and uncoiling dependent on Ca²⁺ concentration.     

STUDIES ON BIOLUMINESCENCE : XVII. FLUORESCENCE AND INHIBITION OF LUMINESCENCE IN CTENOPHORES BY ULTRA-VIOLET LIGHT.

1. Small dumps of the luminous cells of Mnemiopsis cannot readily be stimulated mechanically but will luminesce on treatment with saponin solution. Larger groups of luminous cells (such as are connected with two paddle plates) luminesce on mechanical stimulation. This suggests that mechanical stimulation to luminesce occurs chiefly through a nerve mechanism which has been broken up in the small dumps of luminous tissue. 2. The smallest bits of luminous tissue, even cells freed from the animal by agitation, that will pass through filter paper, lose their power to luminesce in daylight and regain it (at least partially) in the dark. 3. Luminescence of the whole animal and of individual cells is suppressed by near ultra-violet light (without visible light). 4. Inhibition in ultra-violet light is not due to stimulation (by the ultra-violet light) of the animal to luminesce, thereby using up the store of photogenic material. 5. Animals stimulated mechanically several times and placed in ultra-violet light show a luminescence along the meridians in the same positions as the luminescence that appears on stimulation. This luminescence in the ultra-violet or "tonic luminescence," is not obtained with light adapted ctenophores and is interpreted to be a fluorescence of the product of oxidation of the photogenic material. 6. Marked fluorescence of the luminous organ of the glowworm (Photuris) and of the luminous slime of Chatopterus may be observed in ultra-violet but no marked fluorescence of the luminous substances of Cypridina is apparent. 7. Evidence is accumulating to show a close relation between fluorescent and chemiluminescent substances in animals, similar to that described for unsaturated silicon compounds and the Grignard reagents.     

Effect of Clostridium perfringens Alpha Toxin on Contraction of Isolated Guinea-Pig Diaphragm

The effect of Clostridium perfringens alpha toxin on contraction induced by-electric stimulation of isolated guinea-pig diaphragm was investigated. The toxin inhibited electrically stimulated contraction of the tissue in a dose- and incubation time-dependent manner. Tetrodotoxin resulted in no effect of the action of the toxin. Nifedipine dose-dependently delayed the action of the toxin, but verapamil and diltiazem did not. On the other hand, treatment of the toxin with N-acetylimidazole caused significant reduction of the inhibitory activity of the toxin on contraction, but did not cause significant loss of phospholipase C activity (PN activity) as measured by hydrolysis of p-nitrophenylphosphorylcholine. The data showed that the toxin impairs contraction of isolated guinea-pig diaphragm.     

Effect of nitrendipine on isolated uterus and other smooth muscles of the rat

Increasing concentrations of nitrendipine were found to inhibit various types of muscular activation (electrical stimulation, acetylcholine, oxytocin, potassium chloride), as well as the spontaneous rhythmic activity of the isolated rat uterus. The degree of the inhibitory effect of nitrendipine depends on the type of activation. Nitrendipine showed an exceptionally high efficacy in inhibiting contractions induced by electrical stimulation and of spontaneous rhythmic activity. For inhibition of these contractions even osmolar concentrations of nitrendipine were sufficient. The relaxant effect of nitrendipine depended on the concentration of extracellular calcium and the time of incubation of nitrendipine in the bathing medium. Nitrendipine showed high selectivity for the uterine smooth muscle because in a very high concentrations is exerted an insignificant relaxation of the other isolated smooth muscles (oesophagus, urinary bladder). Our experiments indicate that nitrendipine might have a role in therapy of premature delivery and abortion because of its great selectivity for the uterine smooth muscle. Addition of calcium into the medium restores completely all types of muscular activation after the inhibitory action of nitrendipine except its depressive action on the phasic component of oxytocin-induced contractions. These findings that individual types of activation, after inhibitory action of nitrendipine, are reestablished in various degrees by the addition of calcium into the medium, are also an additional confirmation about the existence of various types of calcium channels.     

Mechanism of excitation and contraction uncoupling in frog and guinea pig myocardial fibers during block of slow sodium-calcium channels by compound D-600]

In the experiments performed on the strips of frog's atria and ventricle it was found that rhythmic stimulation facilitated the dissociation of excitation--contraction coupling caused by D-600 compound through the block of calcium channels, i.e. D-600 prevented the increase of tension in the series of contractions or even converted positive staircase into negative one. The first contraction was affected by D-600 to a lesser degree than the subsequent ones. Guinea pig's left auriculus depressing action of D-600 was found to be strongly dependent on the frequency of stimulation. The data obtained were analysed by the model of excitation--contraction coupling. It was concluded that in amphibians as well as in mammalians tension amplitude during rhythmic activity of myocardial cells is determined mainly by Ca inflow through the excitable calcium channels. On the other hand the amplitude of the first contraction depends on the storage content determined by Ca inflow through the Ca channels open at rest. These latter channels have low sensitivity to D-600 and are better presented in atrium than in ventriculum. An increase of contraction tension observed in low sodium medium took place also under the action of D-600; in this case Ca storage was replenished by the Na-Ca exchange diffusion.     

Cholinergic regulation of body-wall muscle contraction of the ascidian Styela rustica (Linnaeus, 1767)

The regulation of body-wall muscle contraction in the ascidian Styela rustica was studied. Acetylcholine (ACh, 1?C10 ??M) induced a significant contraction of isolated muscle strips. The ACh-induced contractile response was potentiated and prolonged in the presence of proserine (15 ??M), which confirms acetylcholinesterase activity in the S. rustica body-wall muscle. Atropine (1?C100 ??M, M-cholinoreceptor blocker) did not prevent the ACh-induced contractile response, while d-tubocurarine (1?C100 ??M, N-cholinoreceptor blocker) progressively reduced muscle contraction induced by 10 ??M ACh. Thus, neuromuscular transmission in the S. rustica body-wall muscle is mediated by nicotinic-like ACh-receptors. Procaine reduced ACh-induced (10 ??M) muscle contraction. As well, our experiments showed spontaneous rhythmic contractile activity in isolated muscle strips of S. rustica. Atropine, d-tubocurarine, procaine, and proserine did not alter rhythmic activity. Myogenic automaticity is suggested as a possible cause of the rhythmic contraction of the ascidian body-wall muscle.     

Effect of Organic Acids on Shrimp Pathogen, <Emphasis Type="Italic">Vibrio harveyi</Emphasis>

Shrimp farming accounts for more than 40% of the world shrimp production. Luminous vibriosis is a shrimp disease that causes major economic losses in the shrimp industry as a result of massive shrimp kills due to infection. Some farms in the South Asia use antibiotics to control Vibrio harveyi, a responsible pathogen for luminous vibriosis. However, the antibiotic-resistant strain was found recently in many shrimp farms, which makes it necessary to develop alternative pathogen control methods. Short-chain fatty acids are metabolic products of organisms, and they have been used as food preservatives for a long time. Organic acids are also commonly added in feeds in animal husbandry, but not in aquaculture. In this study, growth inhibitory effects of short-chain fatty acids, namely formic acid, acetic acid, propionic acid, and butyric acid, on V. harveyi were investigated. Among four acids, formic acid showed the strongest inhibitory effect followed by acetic acid, propionic acid, and butyric acid. The minimum inhibitory concentration (MIC) of 0.035% formic acid suppressed growth of V. harveyi. The major inhibitory mechanism seems to be the pH effect of organic acids. The effective concentration 50 (EC₅₀) values at 96 h inoculation for all organic acids were determined to be 0.023, 0.041, 0.03, and 0.066% for formic, acetic, propionic, and butyric acid, respectively. The laboratory study results are encouraging to formulate shrimp feeds with organic acids to control vibrio infection in shrimp aquaculture farms.     

A history of recent advancements on <Emphasis Type="Italic">Nephrops norvegicus</Emphasis> behavioral and physiological rhythms

Biological rhythms are a widespread feature of living organisms, being expressed at any level of their organization. Behavioral and physiological rhythms can affect the results on species stock assessment when the timing of sampling is not taken into account. That timing is of importance since animals may be present or not in a certain area of sampling depending on their activity cycle. As an example of this, the rhythmic behavior and physiology of one of the most commercially important European decapods, the Norway lobster (Nephrops norvegicus) was studied. These rhythms affect its commercial catchability at a diel and at a seasonal scale. Nephrops inhabits muddy bottoms where animals dig burrows that save them from the trawl tow capture when occupied. Catch patterns have been widely used as proxy of activity rhythms of populations of different depths. Catches show a modulation upon the day-night cycle since animals emerge under optimum environmental illumination in order to feed. Emergence is also affected in a not fully clarified manner by other variables of environmental and demographic nature (e.g. food presence, hunger state, sex, size, reproductive stage, territorialism and mating). All these features make Nephrops a good model of reference for studies on biological rhythms of other commercially important deep water decapods in relation to their ecological context. In this review, we summarize the actual knowledge on Nephrops behavioral and physiological rhythms. We will compare data obtained from laboratory tests on single individuals with data obtained from trawling of populations of different depths. We will also describe some new hypotheses on the rhythmic regulation of the species behaviour, as well as potential scenarios for future research.     

Interaction between cell shape and contraction pattern in the Physarum plasmodium

The relationship between cell shape and rhythmic contractile activity in the large amoeboid organism Physarum polycephalum was studied. The organism develops intricate networks of veins in which protoplasmic sol moved to and fro very regularly. When migrating on plain agar, the plasmodium extends like a sheet and develops dendritic veins toward the rear. After a particular stimulation, the vein organization changes into veinless or vein-network structures. In both structures, the mixing rate of the protoplasm, which is related to communication among contraction oscillators, decreased compared with that of the dendritic one. Accompanying these changes in vein structure, the spatio-temporal pattern of the rhythmic contraction changed into a small-structured pattern from a synchronized one. In the above process, cell shape affects the contraction pattern, but, conversely, the contraction pattern effects the cell shape. To demonstrate this, a phase difference in the rhythmic contraction was induced artificially by entraining the intrinsic rhythm to external temperature oscillations. New veins then formed along the direction parallel to the phase difference of the rhythm. Consequently, the vein organization of the cell interacts with the contractile activity to form a feedback loop in a mechanism of contraction pattern formation.     

Respiratory behavior in the pond snail Lynmaea stagnalis

Summary Previously (Syed et al. 1991) we described the ventilatory behavior of the pond snail Lymnaea stagnalis and identified motor neurons that innervate various muscles involved in this behavior. In the present study we describe an interneuronal network that controls ventilatory behavior in Lymnaea. An identified interneuron, termed the input 3 interneuron (Ip.3.I), was found to be involved in the opening movement of the pneumostome (expiration), whereas another identified interneuron known as visceral dorsal 4 (V.D.4) caused its closure (inspiration). These cells have reciprocal inhibitory connections with each other, which accounts for their opposing effects on common follower motor neurons. In isolated brain preparations a third identified interneuron, right pedal dorsal 1 (R.Pe.D.1) initiated the respiratory cycle by the excitation of Ip.3.I. Whereas Ip.3.I in turn excited R.Pe.D.1, the connections between R.Pe.D.1 and V.D.4 were mutually inhibitory. Both Ip.3.I and V.D.4 were active during spontaneously occurring respiratory behavior as recorded from semi-intact preparations, and selective hyperpolarization of V.D.4 during such spontaneous activity disrupted the respiratory behavior. Regarding peripheral feedback, the mechanical stimulation of the pneumostome during its opening movements not only caused closure but also inhibited Ip.3.I in the middle of its discharge. Ip.3.I and V.D.4 were also found to be multifunctional, inhibiting both locomotor and whole body withdrawal neural networks. We conclude from these results that the rhythmic patterned activity underlying respiratory behavior in Lymnaea is generated centrally, and that the network described here therefore comprises a central pattern generator.     

Effect of housing conditions on activity and lying behaviour of horses

Housing conditions for horses impose various levels of confinement, which may compromise welfare. Lying behaviour and activity can be used as welfare indicators for domestic animals and rebound behaviour suggests a build-up of motivation resulting from deprivation. The objective of this study was to determine if activity and lying behaviour of horses are affected by housing conditions and to investigate the occurrence of rebound behaviour after release from confinement. Eight horses were subjected, in pairs, to each of four experimental treatments; paddock (P), fully stabled (FS), partly stabled (PS) and yard (Y). Each horse received 6 days acclimatisation prior to the 24 h recording period. Time spent in lying and activity were electronically recorded using a tilt switch and motion sensor connected to a data logger worn on the horse's left foreleg. Time spent active during the first 5 min of release from stable to paddock in the PS treatment (days 1 and 5) and at the same time of day in the P treatment was used as a measure of rebound behaviour. Effect of housing conditions on total time spent active was highly significant (FS = 123 s, PS = 158 s, Y = 377 s, P = 779 s, P < 0.001). Housing conditions did not significantly affect total time spent lying (P = 0.646). Horses were significantly more active, compared with baseline paddock behaviour, on release from stabling on both days 1 (P = 0.006) and 5 (P = 0.025) of PS treatment. These results suggest that activity patterns of horses, but not lying behaviour, are affected by the housing conditions tested and that rebound activity occurs in horses after a period of confinement.     

Effect of light intensity on the locomotor activity rhythm of Talitrus saltator (Montagu 1808) from Korba Beach

In this work, we investigate the locomotor behaviour of Talitrus saltator (Montagu 1808) for a population collected from the supralittoral zone of Korba beach. The locomotor activity rhythm was recorded for adult individuals during 10 summer days under continuous light with four different luminous intensities: 5 lux (N = 30), 35 lux (N = 30), 75 lux (N = 30) and 140 lux (N = 15). By the end of the experiments, 100% of the considered individuals were found alive under light intensities of 35 and 140 lux, whereas only 86 and 90% were found alive under light intensity of 5 and 75 lux, respectively. Furthermore, whatever the imposed luminous intensity is, actograms showed a clear drift to the right lengthening day after day the circadian period. Moreover, we found that by raising the light intensity, the drift becomes increasingly important. Actograms as well as activity curves, results showed that the locomotor activity profiles are mainly unimodal and their percentage increases when increasing the light intensity. Furthermore, periodogram analysis highlighted the presence of ultradian and circadian components where the longest periods were observed with the highest luminous intensity. In addition, the locomotor activity rhythm was statistically more defined and individuals of Talitrus saltator were significantly more active under the lowest luminous intensity.     

Sucking pump activity in feeding behaviour regulation in carpenter ants

Modulation of liquid feeding-rate would allow insects to ingest more food in the same time when this was required. Ants can vary nectar intake rate by increasing sucking pump frequency according to colony requirements. We analysed electrical signals generated by sucking pump activity of ants during drinking solutions of different sucrose concentrations and under different carbohydrate-deprivation levels. Our aim was to define parameters that characterize the recordings and analyse their relationship with feeding behaviour.Signals showed that the initial and final frequencies of sucking pump activity, as well as the difference between them were higher in sugar-deprived ants. However, these parameters were not influenced by sucrose solution concentration, which affected the number of pump contractions and the volume per contraction. Unexpectedly, we found two different responses in feeding behaviour of starved and non-starved ants depending on concentration. Starved ants drank dilute solutions for the same length of time as non-starved ants but ingested higher volumes. While drinking the concentrated solutions, starved ants drank the same volume, but did so in a shorter time than the non-starved ones. Despite these differences, for each analysed concentration the total number of pump contractions remained constant independently of sugar-deprivation level. These results are discussed in the frame of feeding regulation and decision making in ant foraging behaviour.