Effect of the parasitoid,Cardiochiles nigriceps,on the nitrogen excretion of its host,Heliothis virescens

Excretion of nitrogenous products by larvae of the tobacco budworm, Heliothis virescens, and the effect of parasitism by the parasitoid, Cardiochiles nigriceps, on the host's excretory products were investigated. The dry weight of faeces produced after parasitism declined although the per cent of total nitrogen in the faeces did not differ significantly between non-parasitized and parasitized larvae. No free ammonia and only small amounts of ammonium nitrogen were found in the faeces. Uric acid was the only purine found and parasitism significantly decreased its excretion. Parasitism apparently had no qualitative effect on the presence of amino acids in the faeces.Amino nitrogen was the major contributor of faecal nitrogen and was reduced in parasitized larvae. Parasitism significantly increased the excretion of proteins in H. virescens larvae. One pteridine was identified in H. virescens and parasitism had no qualitative effect on the pteridines found in host faeces.The major nitrogenous compounds in the faecal material from the parasitoid were uric acid, amino nitrogen, and protein. In addition several pteridines were identified.     

Diurnal ammonia and urea excretion rates in European sea bass, Dicentrarchus labrax fed diets containing mixtures of canola and cotton seed oil at two different ambient temperature

The knowledge about the combined effects of higher temperature and dietary nutrient quality on the diurnal nitrogenous excretion rates is very limited in farmed fish species including European sea bass. Therefore this study investigated the combined effects of increasing levels (30 vs. 60 %) of dietary fish oil replacement by equal mixture of cotton seed oil (CSO) and canola oils (CO) and two different ambient temperature (24 vs. 30 °C) on diurnal total ammonia and Urea–N excretion rates in European sea bass (Dicentrarchus labrax). Experimental diets were fed to fish three times (08:30–13:30–18:30 h) at a fixed rate of 3 % BW.d⁻¹. The daily consumed nitrogen and energy intake of fish were similar during the investigation in different dietary treatments. However, the daily excretion rates of TAN, total nitrogen (TAN+Urea–N) and total nitrogen expressed as a proportion of consumed nitrogen by the European sea bass maintained at 30 °C were found to be significantly (P<0.001) higher (40 to 50%) than fish maintained at 24 °C in all the dietary treatments suggesting higher rates of deamination of ingested amino acids with increased temperature. Daily urea–nitrogen excretion of fish accounted for between 20–30 % of total ammonia–nitrogen excretion rates for each dietary treatment at 24 and 30 °C and appeared to be slightly increased by the temperature but neither the temperature nor the amount of plant oil mixture inclusion in diets or the interaction of these two factors had a significant effect on the urea nitrogen excretion rates of fish in different dietary treatments. However, Urea–N excretion rates in fish fed fish oil only (FO) diet were significantly higher (P<0.05) compared to that of fish fed diets containing increasing amount of plant oil mixture (VOM30 and VOM 60) during the light-on phase of the sampling period at 24 °C indicating periodic enhancement of permeability for urea at excretion sites. Further research is needed in order to elucidate the mechanism of nitrogenous excretion in European sea bass fed plant oil containing diets under extreme summer time temperatures employing total dietary fish oil replacement to reveal the possible effects of alteration in cell membrane phospholipid composition on enzymes responsible for nitrogenous excretion and/or detoxification.     

Effect of ration level on nitrogen excretion, nitrogen retention and efficiency of nitrogen utilization for growth in largemouth bass (Micropterus salmoides)

Largemouth bass ( Micropterus salmoides ) with an average weight of 45.5 g were used to study ration level effects on nitrogen excretion, nitrogen retention, and gross efficiency of utilization of nitrogen for growth. Bass were starved 3 to 4 days and then each bass was placed into an aquarium containing a known volume of water. One day after the fishes were placed in aquaria, nitrogen excretion rates were determined; this rate is the maintenance nitrogen excretion. Each fish was then fed one or more shiners ( Notropis cornutus ); fish were fed only once. Nitrogen excretion measurements were made daily until the rates were similar to maintenance rates. The nitrogen excretion rates for each day after feeding which were above the maintenance nitrogen excretion were combined and reflect the total nitrogen excretion for a given ration level. All ration levels were converted to nitrogen consumption in mg and nitrogen absorption was calculated from subtracting the average faecal nitrogen from nitrogen consumption. From data on nitrogen consumption, nitrogen absorption, nitrogen excretion, and faecal nitrogen, calculations were made for nitrogen retention and gross efficiency of utilization of nitrogen for growth.
As ration level and nitrogen absorption increased, nitrogen excretion increased and is described by the equation, Y = 8.56+0.40 X , where Y is total nitrogen excretion and X is nitrogen absorption. Nitrogen retention also increased with nitrogen absorption and is described by the equation, Y =–8.57+0.60 X , where Y is nitrogen retention and X is nitrogen absorption. Efficiency increases rapidly above maintenance, but levels off at higher ration levels and approaches an asymptote of 60%.     

Nitrogenous excretion in the Antarctic plunderfish

The nitrogenous excretion rates (total ammonia nitrogen, urea, and primary amines) of plunderfish Harpagifer antarcticus were related significantly to length and to wet mass (mass exponents of 0·94, 1·01, 1·07 and 0·93 for total ammonia nitrogen, urea, primary amines, and total nitrogen, respectively). The routine total ammonia excretion rates [22·23 & 2·0 mg N kg⁻¹ day⁻¹ (mean±S.E.)] of plunderfish measured in Antarctica are 10–69% lower than those of comparable non-polar species. Plunderfish are ammonotelic, but the proportion of the total nitrogenous waste attributable to each category was variable between individuals. On average (ranges in parentheses), total ammonia nitrogen, urea, and primary amines accounted for c .82 (57–97), 13 (2–28), and 5 (0·6–22)%, respectively, of the total nitrogen excreted. Polar fish differ from their non-polar relatives only in the rate, and not the nature, of their nitrogenous waste excretion processes.     

Utilization of 15N-urea administered into the sheep small intestine.

The retention and excretion of intrajejunally administered 15N-urea was studied in four experiments on two sheep with a permanently fistulated small intestine. In the first 7 days after the administration of 2 g 15N-urea, 18.26% was excreted in the faeces and 19% in the urine; 62.74% was retained in the organism. Urinary excretion took place mainly on the first day and from the 3rd to the 7th day no 15N was present in the urine. The rate of 15N excretion in the faeces was roughly the same for the first 4 days and then fell; on the 7th day there was no 15N in the faeces. The proportion of 15N-urea retained in the organism and excreted in the urine was 81% showing that urea in the ruminant gastrointestinal tract is largely linked up into metabolic circulation as part of the general exchange of nitrogenous compounds.     

The influence of ration size and feeding frequency on ammonia excretion by juvenile Atlantic cod, Gadus morhua L.

Small groups of juvenile Atlantic cod, Gadus morhua L., were kept at 14°C in through-flow tanks and were fed known quantities of a compounded diet of natural food. The cod were fed single and multiple meals with ration size in the range 0.5 to 4.1% of total wet fish body weight. Ammonia production in each feeding experiment was monitored continuously.
For single-meal experiments, significant relationships were derived between ration size and (a) total ammonia excreted, (b) total exogenous ammonia excreted above endogenous excretion levels, (c) duration of the elevated phase of ammonia excretion, (d) maximum rate of ammonia excretion, and (e) time delay after feeding to reach maximum rate of ammonia excretion. Relationships between nitrogen loss as ammonia and nitrogen intake were examined and estimates of endogenous excretion rate and maintenance ration made.
Repetitive feeding resulted in cyclical variation in ammonia excretion. At the lowest ration size, ammonia excretion rates had nearly returned to the pre-feeding level within 24 h. At higher feeding levels, the effect of each successive meal tended to be cumulative, resulting in increasingly higher ammonia excretion rates which only stabilized towards the end of the experiments.     

Ammonium and phosphate excretion in three common echinoderms from Philippine coral reefs

The ammonium and phosphate excretion and oxygen consumption of three species of echinoderms (Tripneustes gratilla, Protoreaster nodosus and Ophiorachna incrassata) commonly encountered in Philippine coral reefs were investigated in relation to time of day (i.e. daytime between 10:00 and 12:00 h vs. nighttime between 22:00 and 24:00 h) and their recent feeding history (i.e. recently-collected vs. short-term starvation for 3+/-1 days). The experiment used whole organism incubations and followed a nested hierarchical design. Ammonium excretion rates were 1447+/-310 nmolg(-1) DWh(-1) (mean+/-S.E., n=24) for T. gratilla, 361+/-33 for O. incrassata and 492+/-38 for P. nodosus. Ammonium excretion differed significantly among species, time of incubation and recent feeding history. Interaction between species and recent feeding history was also significant. The organisms excreted more ammonium during daytime except for starved specimens of O. incrassata. In addition, animals that were starved in the laboratory for a few days had a tendency to excrete more ammonium than recently-collected specimens. Phosphate excretion rates were 25+/-13 nmolg(-1) DWh(-1) for T. gratilla, 10+/-2 for O. incrassata and 4+/-1 for P. nodosus. There were no significant differences in phosphate excretion among the three species of echinoderms, their recent feeding history and time of day. Oxygen consumption rates were 286+/-24 μg O(2)g(-1) DWh(-1) for T. gratilla, 64+/-3 for O. incrassata and 54+/-3 for P. nodosus. Oxygen consumption differed significantly among species and recent feeding history but differed only slightly with time of incubation. There was a significant correlation between oxygen consumption and ammonium excretion (r=0.48, P=0.018), and between oxygen consumption and phosphate excretion (r=0.41, P=0.047) for T. gratilla. The nutrient excretion by tropical echinoderms is another pathway by which inorganic nutrients are regenerated in coral reef communities. However, the quantity of nutrients excreted is dependent on the species of echinoderms, their nutritional status and time of day.     

Pair Swimming and Mutual Partner Guarding in Monogamous Butterflyfish (Pisces,Chaetodontidae): a Joint Advertisement for Territory

The ecology and social systems of Red Sea butterflyfish were studied along the Sinai coast. Distribution, population density and sociography indicate a preponderance of monogamy in all species, independent of reef zonation and seasonal or long-term changes of the reef environment. The social and mating systems are mutual monogamy; partners remain together for up to 6 years. Links between the monogamy and benthic habits of these fish are indicated by their feeding ecology and by a comparison with Indopacific plankton-feeding species, which usually occur in groups. Territories are defended pairwise. Pair partners nearly always remain within visual contact, but a species-typical distance apart. Pair swimming is independent of season or time of day. Experimental partner removals led to speedy replacement of mates. Possible causes of high partner permanency with little partner fidelity are discussed. In good habitats, single territorial adults do not occur. They would be unable to defend and maintain a territory over long periods. While cooperating in defence and maintenance of a territory, each individual can exploit the resources of the territory including availability of a mate. Pair swimming with mutual partner guarding is considered a joint territorial advertisement similar to duetting in birds; it minimizes agonistic interactions between territory holders. As butterflyfish have planktonic larvae without any broodcare, monogamy could not have evolved in response to broodcare activities as in many other vertebrate groups.     

Predation Risk,Resource Quality,and Reef Structural Complexity Shape Territoriality in a Coral Reef Herbivore

For many species securing territories is important for feeding and reproduction. Factors such as competition, habitat availability, and male characteristics can influence an individual’s ability to establish and maintain a territory. The risk of predation can have an important influence on feeding and reproduction; however, few have studied its effect on territoriality. We investigated territoriality in a haremic, polygynous species of coral reef herbivore, Sparisoma aurofrenatum (redband parrotfish), across eight reefs in the Florida Keys National Marine Sanctuary that were either protected or unprotected from fishing of piscivorous fishes. We examined how territory size and quality varied with reef protection status, competition, predation risk, and male size. We then determined how territory size and quality influenced harem size and female size to understand the effect of territoriality on reproductive potential. We found that protected reefs trended towards having more large predatory fishes and that territories there were smaller but had greater algal nutritional quality relative to unprotected reefs. Our data suggest that even though males in protected sites have smaller territories, which support fewer females, they may improve their reproductive potential by choosing nutritionally rich areas, which support larger females. Thus, reef protection appears to shape the trade-off that herbivorous fishes make between territory size and quality. Furthermore, we provide evidence that males in unprotected sites, which are generally less complex than protected sites, choose territories with higher structural complexity, suggesting the importance of this type of habitat for feeding and reproduction in S. aurofrenatum. Our work argues that the loss of corals and the resulting decline in structural complexity, as well as management efforts to protect reefs, could alter the territory dynamics and reproductive potential of important herbivorous fish species.     

Some effects of temperature, feeding and body weight on nitrogenous excretion in young plaice Pleuronectes platessa L.

Ammonium-nitrogen accounted for 75–85% of the nitrogenous excretion of young plaice, Pleuronectes Platessa L., prior to feeding. Rates of excretion increased with increasing temperature and in proportion to the body weight to the power 0.67. Following feeding the rate of excretion increased to between 2and 11 times the pre-fed rate and both the peak rate and as the duration of the effect were increased, the greater the amount of nitrogen absorbed from the food. The magnitude of the effect increased with increasing ration and the relationship was best described by an asymptotic equation. Estimates of endogenous nitrogen excretion and maintenance requirements were made from the results of the feeding experiments and were fond to be in close agreement with published data. Estimats of nitrogen requirements obtained from the experiments on fish in the post-absorptive state yielded values intermediate between endogenous and maintenace requirements.     

The role of lesser snow geese as nitrogen processors in a sub-arctic salt marsh

Summary Ammonia volatilization losses from faeces of Lesser Snow Geese were measured during the summer of 1987 on the salt-marsh flats at La Pérouse Bay. Amounts of ammonia volatilized increased with increasing ambient temperature, and ranged from 1.0 to 15.1 mg N per 100 mg of nitrogen present as soluble ammonium ions at the start of the 8-h experiment. Using estimates of faecal deposition reported previously, the annual loss via volatilization was estimated at 0.08 g N m^-2, or 7.9% of the nitrogen present in goose faeces. Percent change in soluble ammonium ions in fresh faeces after 8 h ranged from -51.1% to +41.1%, indicating that net mineralization of organic nitrogen occurred in some of the faeces. Microbial respiration of fresh goose faeces increased exponentially with temperature. However, variable rates of net mineralization per unit rate of respiration indicated that the substrate quality affected microbial immobilization and thus net nitrogen mineralization. In feeding experiments, captive goslings grazed different types of vegetation, each with distinctive nutritional qualities. Forage quality had significant effects on goose feeding behavior and subsequent rates of nitrogen mineralization in fresh faeces. Net nitrogen mineralization rates in faeces from geese which grazed the three vegetation types ranged from 1.31 to 4.97 mg NH ₄ ⁺ –N g_DW ^-1 24 h^-1. Because plant growth in this salt marsh is nitrogen-limited, where swards are grazed, mineralization of organic faecal nitrogen represents an essential link in the maintenance of the flow of nitrogen into the sediments and the sustained growth of vegetation at a time when most required by the geese.     

粪便收集方式对异育银鲫表观消化率测定的影响

消化率的高低是评价饲料营养价值的重要指标,但是粪便的不同收集方式会影响消化率的测定结果。研究观察了异育银鲫摄食后的排粪高峰以及排粪持续时间,探讨了粪便的不同收集方式对异育银鲫(Carassius auratus gibelio)(约100 g)表观消化率(Apparent digestibility coefficient,ADC)测定结果的影响。饲料中加入1%三氧化二铬(Cr2O3)作为指示剂,实验采用3种粪便收集方法(积粪器法、虹吸法和后肠取粪法),并且在积粪器法和虹吸法中设置了不同的收粪时间。结果表明,正常投喂的异育银鲫摄食后的排粪高峰出现在摄食结束后的5—10h;饥饿2d的异育银鲫恢复摄食后的排粪高峰出现在摄食结束后的7—9h;饲料的干物质表观消化率(ADC of dry matter,ADCd)和蛋白表观消化率(ADC of protein,ADCp)在排粪初始阶段较低,随着排粪高峰的出现而升高。粪便的不同收集方法和不同收集时间对ADCd和ADCp的测定结果均存在显著影响(P<0.05)。采用虹吸法收集粪便测得的ADCd与在排粪高峰时段内积粪器法的测定值相当;后肠取粪法收集粪便测得的ADCd低于积粪器法排粪高峰期的测定值。采用虹吸法收集粪便测得的ADCp略低于在排粪高峰时段内积粪器法的测定值;后肠取粪法收集粪便测得的ADCp低于积粪器法各时间段内的测定值。因此,在选择挑选新鲜完整粪便的前提下,在排粪高峰期采用虹吸法收集粪便用于ADC的测定是一种方便可靠的方法,反而后肠取粪法由于操作误差容易带来更大偏差。     

Interpreting Space Use and Behavior of Blue Tang, <Emphasis Type="Italic">Acanthurus coeruleus</Emphasis>, in the Context of Habitat,Density, and Intra-specific Interactions

Synopsis We hypothesized that blue tang, Acanthurus coeruleus, territories on sites with low biogenic structure would be larger than territories on sites with relatively high biogenic structure due to differences in the amount and distribution of resources. We tested this hypothesis by tracking blue tang over uncolonized pavement and reef crest, two habitat types at opposite ends of the habitat structure spectrum. We recorded density, feeding rates and aggression events in order to evaluate our findings in the context of a territory model and the ideal free distribution model. Territories of A. coeruleus averaged nearly four times larger on pavement sites than on reef crest sites. Conversely, densities of A. coeruleus were significantly lower on pavement sites. While there was no significant difference in the average rates of movement between habitats, average turning angles were significantly higher on reef crest. There were no significant differences in feeding rates between habitats, suggesting that higher territory sizes and lower densities may allow fish on uncolonized pavement to match resource acquisition of fish on reef crest. The insignificant difference of aggression encounters between habitats suggests that movement and density differences among habitats are not solely legacies of differential settlement.     

中华绒螯蟹在不同pH值环境下的氮排泄

研究不同pH值环境对中华绒螯蟹（Eriocheir sinensis）氮排泄的影响。本研究采用直接浸浴法测定中华绒螯蟹在pH值4．5，6．0，7．5，9．0和10．5条件下的氮排泄。结果表明，在pH值9．0及其以下时，氨氮排泄无显著变化，当pH值升高到10．5时，氨氮排泄急剧下降，其排泄过程具有不连续性；亚硝酸氮、尿素氮和有机氮的排泄随pH值的升高而增加；硝酸氮的排泄同亚硝酸氮类似，但在pH值10．5时，呈下降状态；总氮的排泄随pH值升高而降低。在pH值4．5时，中华绒螯蟹的氨氮排泄量占总氮排泄量的91．0％，随着pH值上升，氨氮占总氮排泄的比例下降，而包括有机氮在内的其它形式的含氮化合物的排泄比例上升。因此．我们认为当环境pH值在9．0以下的范围波动时，不会对中华绒螯蟹的氨氮排泄带来不利影响，但过高的pH值可能会阻碍氮排泄。     

Fatty acid composition indicating diverse habitat use in coral reef fishes in the Malaysian South China Sea

Background

In order to understand feeding ecology and habitat use of coral reef fish, fatty acid composition was examined in five coral reef fishes, Thalassoma lunare, Lutjanus lutjanus, Abudefduf bengalensis, Scarus rivulatus and Scolopsis affinis collected in the Bidong Island of Malaysian South China Sea.

Results

Proportions of saturated fatty acids (SAFA) ranged 57.2% 74.2%, with the highest proportions in fatty acids, the second highest was monounsaturated fatty acids (MUFA) ranged from 21.4% to 39.0% and the proportion of polyunsaturated fatty acids (PUFA) was the lowest ranged from 2.8% to 14.1%. Each fatty acid composition differed among fishes, suggesting diverse feeding ecology, habitat use and migration during the fishes’ life history in the coral reef habitats.

Conclusions

Diets of the coral fish species might vary among species in spite of that each species are living sympatrically. Differences in fatty acid profiles might not just be considered with respect to the diets, but might be based on the habitat and migration.     

Intertidal territoriality and time-budget of the surgeonfish, Acanthurus lineatus, in American Samoa

Synopsis The herbivorous surgeonfish Acanthurus lineatus aggressively maintained feeding territories in the surf zone of the outer reef flat in American Samoa. Intertidal territories were re-established each morning, as well as after displacement by low tides or rough surf. Day-to-day site fidelity of recognizable individuals was high: 99.9% return rate per day for adults (15–20 cm), 99.6% for juveniles (8–13 cm), and 97.2% for recruits (2.5–5 cm). Fish fed on turf algae primarily in the afternoon (80% of available time), and spent 10% of their time on active territorial defense and 2–13% of their time on forays from their territory. On average, a fish defended its territory 1900 times daily and took 17 000 bites (= 7400 bites m^–2 d^–1), but rough surf reduced feeding by 60% and defense by 75%. High territorial defense requirements significantly reduced feeding rates. Although the distribution and behavior of this species in Samoa was in large part similar to that reported for it elsewhere (Australia, Indian Ocean), there were notable differences: in Samoa A. lineatus densities within colonies were greater (0.4 fish m^–2), territory size was smaller (2.3 m²), and defense rate against intruders was greater (2.5 attacks min^–1). These differences in Samoa may be related to their smaller body size, greater abundance or increased food supply caused by hurricane damage to reefs which has enhanced the algal turfs that A. lineatus feeds upon.     

Experimental studies on some trophic relationships in juvenile pike, Esox lucius L.

A postprandial increase in ammonia nitrogen excretion and oxygen consumption rates was observed in juvenile pike fed a natural diet or an artificial dry diet. Specific growth rate of natural diet fed pike (2.4%) was lower than that of pike fed the artificial diet (3.1%). Fifty per cent of ingesta was evacuated within 5–6 h in pike of 25 mg body weight and 9–10 h in those weighing 150mg. Daily nitrogen excretion rates were related to body weight. Respiratory quotient and energy retention efficiency were affected by the nature of the diet ingested by pike. Parameters of the energy balance (losses, retention, increment due to feeding) were related to energy intake.     

Parrotfish bioerosion on Egyptian Red Sea reefs

Parrotfishes (family Scaridae) are important agents in marine bioerosion. Here, the feeding ecology of seven species of parrotfishes was studied on Egyptian Red Sea reefs. The most abundant species on both the reef flat and slope was Chlorurus sordidus. In contrast, C. gibbus had the lowest abundance on the reef flat, and Cetoscarus bicolor was the least abundant species on the reef slope. Scarus niger exhibited the highest feeding rate (98.9 bites 5 min^− 1), followed by C. sordidus (76.5 bites 5 min^− 1), whereas the rates for C. bicolor and C. gibbus were low (29.4 and 31.9 bites 5 min^− 1, respectively). The daily feeding patterns of all seven species showed agreement in that activity was relatively constant over the day, with highest values in the early afternoon (1400 h) and a steady decrease until 1800 h. C. sordidus was more similar to S. niger and S. ghobban in showing somewhat higher activities in the morning (0800 h) followed by a slight decrease until noon. The average bite volumes of C. gibbus and C. bicolor were high (0.114 and 0.110 cm³, respectively), whereas S. niger had the lowest average value (0.002 cm³). Based on their feeding intensity, C. gibbus, S. ghobban and C. bicolor have high bioerosion rates on the Egyptian Red Sea reefs. Overall, S. ghobban is the most important bioeroder because it is more abundant than the other two species. All parrotfish species fed on dead coral and hard substrates which are rich in algae, but C. gibbus, C. bicolor and S. ghobban also fed on live coral on both reef zones; C. sordidus avoided live coral. The fresh scars on live coral were bigger than on dead coral because the three large parrotfish (C. gibbus, C. bicolor and S. ghobban) fed mainly on live corals.     

Group foraging by a coral reef fish: a mechanism for gaining access to defended resources

Solitary blue tang surgeonfish, Acanthurus coeruleus, are virtually excluded from feeding on algal mats defended by the dusky damselfish, Stegastes dorsopunicans. Foraging in groups enables blue tangs to overwhelm the defences of the damselfish and to feed in their territories. The rate of biting on algal mats by individual participants is positively correlated with group size, probably because individuals in large groups suffer attacks from damselfish less frequently. Experimental reduction of the density of damselfish on a small patch reef resulted in feeding rates by solitary surgeonfish equal to those of participants in large groups. This demonstrates that the positive association between foraging group size and participant bite rates on defended algal mats is due to the presence of the damselfish rather than to a reduction in time spent watching for predators. Overwhelming territory defenders by aggregating in groups is a habit widespread among fishes, suggesting that effective defence of a valuable resource may promote the evolution of a social behaviour pattern which permits access to an otherwise unobtainable resource.     

Absorption,metabolism and excretion of 3-acetyl don in pigs

The absorption, metabolism and excretion of 3-acetyldeoxynivalenol (3-aDON) in pigs were studied. Pigs with a faecal microflora known to be able to de-epoxidate trichothecenes were used in the experiment. The pigs were fed a commercial diet with 3-aDON added in a concentration of 2.5 mg/kg feed for 2.5 days. No traces of 3-aDON or its de-epoxide metabolite were found in plasma, urine or faeces. Deoxynivalenol (DON) was detected in plasma as soon as 20 min after start of the feeding. The maximum concentration of DON in plasma was reached after 3 h and decreased rapidly thereafter. Only low concentrations close to the detection limit were found in plasma 8 h after start of the feeding. A significant part of the DON in plasma was in a glucuronide-conjugated form (42 ± 7%). No accumulation of DON occurred in plasma during the 60 h of exposure. The excretion of DON was mainly in urine (45 ± 26% of the toxin ingested by the pigs) and only low amounts of metabolites of 3-aDON (2 ± 0.4%) were recovered in faeces. De-epoxide DON constituted 52 ± 15% of the total amount of 3-aDON-metabolites detected in faeces. The remaining part in faeces was DON. DON was still present in the urine and faeces at the end of the sampling period 48 h after the last exposure. The results show that no de-epoxides are found in plasma or urine in pigs after trichothecene exposure, even in pigs having a faecal microflora with a de-epoxidation activity. The acetylated form of the toxin is deacetylated in vivo. Furthermore, the experiment shows that the main part of DON is rapidly excreted and does not accumulate in plasma, but a minor part of the toxin is retained and slowly excreted from the pigs.