浙江省甘薯种质资源的品质鉴定与聚类分析

开展甘薯种质资源的品质鉴定评价,可以系统地了解种质的营养价值、食用品质和加工性能,为甘薯生产的品种选择和种质资源的育种利用提供依据。对2017-2019年浙江省第三次全国农作物种质资源普查与收集行动中征集的62份甘薯种质进行了干物率、胡萝卜素含量、生薯和熟薯可溶性糖含量以及食味的测定,并进行了品质性状的主成分和系统聚类分析。结果表明,在参试种质中,有高干物率品种24份,胡萝卜素含量≥5 mg/100 g·FW的品种5份,生薯可溶性糖含量超过水果甘薯六十日的品种7份,熟薯麦芽糖含量超过迷你甘薯心香的品种6份。生薯和熟薯均含有果糖、葡萄糖、蔗糖和麦芽糖。在生薯中蔗糖含量最高,平均含量为27.00 mg/g·FW,占可溶性糖的47.49%。在熟薯中麦芽糖含量最高,麦芽糖与可溶性糖含量高度相关(r=0.925)。食味与熟薯可溶性糖和还原糖含量、胡萝卜素含量呈极显著正相关,与生薯可溶性糖含量呈显著正相关。主成分F1、F2、F3、F4分别与食用品质、淀粉和油炸薯片加工性能、蔗糖含量有关,可以代表94.15%的甘薯品质变量信息。系统聚类分析表明,参试种质的品质类型可以分为Ⅰ、Ⅱ、Ⅲ3个类群和Ⅰ-1、Ⅰ-2、Ⅱ-1、Ⅱ-2、Ⅲ-1、Ⅲ-2 6个亚群,依用途可以简要归类为:淀粉型23份,粮饲兼用型19份,优质食用型16份,油炸薯片型4份。总之,浙江省甘薯种质资源以淀粉型和粮饲兼用型为主,品质类型丰富,在鲜食及淀粉、全粉、薯脯、油炸薯片加工等用途上有较好的利用价值。     

Comparing the effects of five naturally occurring monosaccharide and oligosaccharide sugars on longevity and carbohydrate nutrient levels of a parasitic phorid fly, Pseudacteon tricuspis

Abstract.  The longevity and nutrient levels of Pseudacteon tricuspis provided with 1  m solutions of five naturally occurring sugars, fructose, glucose, sucrose, trehalose and melezitose, are compared. All but melezitose, result in significant increases in the longevity of P. tricuspis in comparison with sugar-starved flies (flies provided with water only). Sugar-starved female and male P. tricuspis have an average longevity of 3.3 and 4.1 days, respectively. Provision of free water in addition to sugar solution is necessary for optimum longevity by female and male flies. Longevity is increased by 2.4–2.6-fold by the two monosaccharides, fructose and glucose, and by 2.6–2.8-fold by the disaccharides, sucrose and trehalose. Phorid flies provided with the trisaccharide sugar, melezitose, had a marginal increase in lifespan (approximately 1 day), but this is not significantly different from the longevity of sugar-starved flies. Significantly greater levels of total sugars are detected in P. tricuspis fed the disaccharide sugars (sucrose, trehalose) or the monosaccharide sugars (fructose, glucose), compared with flies provided with melezitose (trisaccharide), or to sugar-starved flies. Fructose is not detected in sugar-starved flies, or in flies fed glucose or trehalose. However, high levels of fructose are detected in flies fed sucrose or fructose, whereas levels of fructose in melezitose-fed flies are intermediate. In general, significantly greater glycogen levels are detected in P. tricuspis fed sucrose, glucose, trehalose or fructose, compared with melezitose-fed or sugar-starved flies. Levels of total sugars and glycogen in sugar-fed flies are positively correlated with wing length, possibly indicating a higher accumulation of storage sugars by larger flies. These results are discussed in relation to the nutritional ecology of the phorid fly.     

Gustatory perception and metabolic utilization of sugars by<Emphasis Type="Italic"> Myrmica rubra</Emphasis> ant workers

The suitability of various nectar and honeydew sugars as a food source for the polyphagous ant species M. rubra (L.) was studied. The sugars used included monosaccharides (fructose, glucose, galactose, mannose, rhamnose), disaccharides (sucrose, maltose, trehalose, melibiose, lactose) and trisaccharides (melizitose, raffinose, erlose). Single-sugar solutions were tested on ant workers in a long-term laboratory bioassay in which acceptance of the solutions and ant survival were recorded. The acceptance of the sugars was confirmed in a second bioassay in which feeding time was established. Enzymatic hydrolysis of sucrose, maltose and melibiose was investigated through HPLC analyses of workers fed these disaccharides. Sugar acceptance and feeding time were related to ant survival. Considering the monosaccharide units of which the sugars are composed, fructose seems especially suitable as a short-term energy source, while glucose appears to be used both directly and for storage. The presence of a galactose unit appears to reduce sugar suitability. It is suggested that the workers possess invertase and maltase and to a lesser degree also galactosidase. The gustatory perception is correlated with the profitability of sugars in further metabolic processes.     

Competition of polysaccharides with sugars for the pyranose and the furanose sites in the labellar sugar receptor cell of the blowfly, Phormia regina

In the labellar sugar receptor cell of the blowfly, Phormia regina, soluble starch and dextran T500 inhibited the response to sucrose, to maltose or to glucose, but did not inhibit that to fructose. On the other hand, inulin inhibited the response to fructose, but did not inhibit that to sucrose. These results suggest that both soluble starch and dextran T500 compete with sucrose, with maltose or with glucose for the pyranose site (P site), and that inulin competes with fructose for the furanose site (F site) in a single sugar receptor cell. Each inhibition constant (K_i) was estimated to be 0.6–0.7% for soluble starch. about 4.5% for dextran T500, and about 1.3% for inulin.     

Plutella xylostella (diamondback moth) and its parasitoid Diadegma semiclausum show different gustatory and longevity responses to a range of nectar and honeydew sugars

Parasitoids as well as many of their herbivorous hosts, depend on carbohydrate‐rich food during the adult stage. Different types of nectar and honeydew vary with regard to their sugar composition. In order to successfully exploit a food source, the insect must show a positive gustatory response to its component sugars and be able to digest and metabolise them. Here we tested the herbivore Plutella xylostella L. (Lepidoptera: Plutellidae) and its parasitoid Diadegma semiclausum (Hellén) (Ichneumonidae: Campopleginae) with respect to their feeding response and longevity when provided with one of nine sugars (fructose, glucose, lactose, maltose, melibiose, melezitose, raffinose, sucrose, or trehalose). Both species responded to and showed a prolonged life span on a broad range of sugars. The impact of food supply on life span was about sixfold higher for the parasitoid than for the herbivore. In general, there was a good fit between gustatory response and achieved longevity, with some outliers. Both species showed only weak responses to melibiose, which significantly prolonged life span. The parasitoid showed a gustatory response to melezitose, which did not prolong its life span. The parasitoid and its herbivorous host responded differently to trehalose. These differences in gustatory response and longevity show the potential for application of selective sugar sources in conservation biological control. At the same time it also reveals a risk that the indiscriminate application of sugar sources may stimulate herbivory.     

Acrylamide in food: Progress in and prospects for genetic and agronomic solutions

Acrylamide is a processing contaminant and Group 2a carcinogen that was discovered in foodstuffs in 2002. Its presence in a range of popular foods has become one of the most difficult problems facing the food industry and its supply chain. Wheat, rye and potato products are major sources of dietary acrylamide, with biscuits, breakfast cereals, bread (particularly toasted), crispbread, batter, cakes, pies, French fries, crisps and snack products all affected. Here we briefly review the history of the issue, detection methods, the levels of acrylamide in popular foods and the risk that dietary acrylamide poses to human health. The pathways for acrylamide formation from free (non‐protein) asparagine are described, including the role of reducing sugars such as glucose, fructose and maltose and the Maillard reaction. The evolving regulatory situation in the European Union and elsewhere is discussed, noting that food businesses and their suppliers must plan to comply not only with current regulations but with possible future regulatory scenarios. The main focus of the review is on the genetic and agronomic approaches being developed to reduce the acrylamide‐forming potential of potatoes and cereals and these are described in detail, including variety selection, plant breeding, biotechnology and crop management. Obvious targets for genetic interventions include asparagine synthetase genes, and the asparagine synthetase gene families of different crop species are compared. Current knowledge on crop management best practice is described, including maintaining optimum storage conditions for potatoes and ensuring sulphur sufficiency and disease control for wheat.     

Antennal sugar sensitivity in the click beetle Agriotes obscurus

The occurrence of salt‐, sugar‐sensitive neurones and a mechanoreceptor neurone in the antennal hair‐like gustatory sensilla of the click beetle Agriotes obscurus L. (Coleoptera, Elateridae) is demonstrated using the electrophysiological sensillum tip‐recording technique. The stimulating effect of 13 water soluble sugars at 100 mm is tested on the neurones of these sensilla. Sucrose and fructose are the two most stimulating sugars for the sugar‐sensitive neurone, evoking almost 30 spikes s^?1 at 100 mm . The stimulating effect of arabinose, glucose, mannose, maltose and raffinose is three‐ to five‐fold lower, in the range 5.9–9.6 spikes s^?1. The remaining six sugars, xylose, galactose, rhamnose, cellobiose, trehalose and lactose, have very low (<1 spikes s^?1) or no ability to stimulate the sugar‐sensitive neurone. Concentration/response curves of the sugar‐sensitive neurone to sucrose, fructose and glucose at 0.01–100 mm overlap to a large extent in hibernating, cold reactivated and reproductively‐active beetles. A remarkable 9–50% decrease in the number of spikes evoked by 100 mm fructose and 10–100 mm sucrose occurs, however, in reproductively‐active beetles in June compared with beetles at the beginning of hibernation in October. These findings show that A. obscurus is capable of sensing a wide range sugars via their antennal gustatory sensilla.     

Feeding responses by female Pieris brassicae butterflies to carbohydrates and amino acids

Most Lepidoptera feed during the adult stage on carbohydrate‐rich food sources, primarily floral nectar. However, little is known about the factors leading to the acceptance of a possible food source. It is reported that butterflies select for nectar rich in sucrose and amino acids. This suggests that the insects have developed a sensitivity to these nectar compounds. We tested females of the large cabbage white, Pieris brassicae L. (Lepidoptera: Pieridae) for their responses to 10 different nectar‐ or honeydew‐sugars after either tarsal or proboscis stimulation. In no‐choice experiments, food‐deprived P. brassicae showed the strongest response to sucrose, followed by fructose. Other sugars, including galactose, glucose, maltose, mannose, melezitose, melibiose, raffinose and trehalose, did not elicit a feeding response. Mixtures of essential or common non‐essential amino acids did not stimulate feeding. In a choice situation, P. brassicae preferred sucrose over fructose, whereas they accepted a sucrose and amino acid solution equally to a plain sucrose solution. The results indicate that for P. brassicae, feeding is mainly elicited by sucrose and fructose.     

The Growth of Acer pseudoplatanus Cells in a Synthetic Liquid Medium: Response to the Carbohydrate, Nitrogenous and Growth Hormone Constituents

A synthetic culture medium which supports a high level of growth of a scrially propagated cell suspension culture of Acer pseudoplatanus is described. The sucrose of this medium can be effectively replaced by glucose or fructose or a mixture of glucose and fructose or galactose or maltose or soluble starch. When the carbohydrate is glucose or fructose no other sugars appear in the culture medium in significant amounts. Glucose is absorbed in greater quantity than fructose from an equimolar mixture of these sugars. When sucrose is supplied both glucose and fructose appear in the medium. Glucose appears in maltose medium, and maltose and glucose in soluble starch medium. Under the standard conditions of culture, media containing 2 % sucrose or 2 % glucose become depleted of sugar before the 25th day of incubation. Enhanced yield of the cultures can be obtained by raising the initial sucrose concentration to 6 %. – A supply of nitrate is essential for maximum yield and healthy growth. Growth, in the presence of nitrate, is significantly enhanced by a supply of urea. Addition of casein hydrolysate or of a mixture of amino acids enhances growth in the presence of nitrate and urea and particularly when nitrate is omitted. – When kinetin is omitted or incorporated at the standard level (0.25 mg/I), 2,4-dichlorophenoxyacetic acid (2,4-D) at 1.0 mg/l is essential for continuation of growth at a high level. It cannot be replaced by indol-3yl-acetic acid (IAA). 1-naphthaleneacetic acid (NAA) at 10 mg/l permits of a low level of growth with abnormal aggregation. When the level of kinetin is raised to 10 mg/l a high level of growth occurs in the absence of added auxin but the cultures become brown and tend to show increasing aggregation on subculture.     

Sensitivity of antennal gustatory receptor neurones to aphid honeydew sugars in the carabid Anchomenus dorsalis

Using electrophysiology, the stimulating effect of 13 sugars and three sugar alcohols (each at a concentration of 100 mm ) to antennal gustatory receptor neurones (GRNs) is tested in the carabid beetle Anchomenus dorsalis (Pontoppidan, 1763) (Coleoptera, Carabidae). Maltose, sucrose, glucose and raffinose are the most stimulating sugars for the sugar‐sensitive neurone (SuN), evoking 6.7–18.6 spikes s^?1 in fed insects, whereas the others had little or no effect. The firing rate of the antennal GRNs is not affected by any of the tested sugar alcohols, dulcitol, inositol and sorbitol. Additionally, concentration/response curves for sucrose and maltose are obtained in the range 0.01–100 mm . The responses of beetles starved for 96 h to this range of sucrose are two‐ to three‐fold higher compared with those of fed beetles. The presence of a terminal α‐glucose unit is an important feature of the molecular structure determining the stimulating properties of the two disaccharides, maltose and sucrose, as well as glucose. The other monosaccharide unit of the molecule is also of great importance in determining the stimulating properties of various disaccharides. The sensitivity of the SuN to the four most prevalent aphid honeydew sugars suggests that A. dorsalis uses these chemicals as sensory cues when searching for aphids as prey.     

Various Hexoses and di-hexoses Differently Influence Growth,Morphology and Pigment Synthesis in Transformed Root Cultures of Red Beet (Beta vulgaris)

Red beet hairy root cultures, obtained after genetic transformation with Agrobacterium rhizogenes, are completely heterotrophic and synthesize betalaines (BNs). Upon subjecting the hairy roots to treatments containing different sugars (3% w/v) it was found that sucrose was rapidly utilized, followed by maltose, and a very limited use of glucose, but the other hexoses – fructose, lactose, xylose and galactose or glycerol totally suppressed both growth and BN synthesis. No habituation or adaptability to maltose or glucose occurred, evidenced by the lack of growth upon re-culture in respective medium. Glycerol, was not taken up alone, but was utilized to a considerable extent in the presence of low levels of sucrose for growth only but not BN synthesis. Red beet hairy root culture did not exogenously hydrolyse sucrose to hexoses, as there were only traces of reducing sugar present in the medium soon after inoculation, without an increase later, confirmed by HPLC. There was an increase in medium osmolarity in the presence of fructose indicating the exudation of certain compounds from the roots. Red beet hairy roots appear useful as a model system to study sugar metabolism/signalling due to their sensitivity to different sugars that may directly link to morphological changes and BN synthesis.     

Haemolymph sugar levels in a nectar-feeding ant: dependence on metabolic expenditure and carbohydrate deprivation

In nectar-feeding insects, sugars are an important source of fuel and energy storage. Here, we analyzed the haemolymph sugar levels in foragers of the ant Camponotus rufipes trained to collect nectar from an artificial feeder, and their dependence on the metabolic rate during feeding. The main sugar found was trehalose, followed by glucose and traces of fructose and sucrose. In foragers, trehalose level was independent of their activity and metabolic rate while feeding. Carbohydrate deprivation of the colony had a strong effect on the haemolymph sugar levels of workers, with a significant decrease in trehalose and glucose with increasing starvation. We also found a correlation between haemolymph sugar levels and behavioral states, with immobile workers having higher trehalose and fructose levels than active ones. It is suggested that under food deprivation, inside-nest workers initially stay completely immobile as a strategy to save energy, and only become active and start to search for food when the trehalose levels decrease even more. Based on a conservative estimation, well-fed ants could travel up to 500 m, or spend more than 20 h inactive at 25°C, using only the energy provided by the haemolymph trehalose, before reaching the levels found in starved nest-mates.     

Overlapping substrate specificity for sucrose and maltose of two binding protein-dependent sugar uptake systems in Streptococcus mutans

Sugar metabolism by Streptococcus mutans is associated with tooth decay. The most abundant sugars in the human diet are sucrose and maltose, a derivative of starch. Previously, we reported a binding protein-dependent transport system (msm) in S. mutans that transports sucrose and maltose, but its associated enzymes do not metabolize maltose. By searching the S. mutans genomic sequence for a maltose system (mal), we found a gene cluster encoding proteins with homology to those of msm and the Escherichia coli maltose system. Mutants were constructed by deleting msm or mal, or both, and tested for sugar utilization. Deletion of the mal system diminished the ability of S. mutans to ferment maltose, but deletion of only the mal transporter genes or msm showed reduced utilization of chromogenic maltosides. Maltose, sucrose, glucose, fructose, mannose, and N-acetyl glucosamine inhibited utilization of chromogenic maltosides by the wild-type strain and mutants. In conclusion, the two binding protein-dependent systems in S. mutans appear to transport collaboratively their common substrate sugars, notably sucrose and maltose.     

The effects of various carbohydrate diets on Aedes aegypti infected with Dirofilaria immitis.

Aedes aegypti infected with Dirofilaria immitis and uninfected mosquitoes were maintained on various carbohydrate diets (glucose, galactose, fructose, sucrose, trehalose, maltose, and melibiose). The value of each of these sugars in supporting survival of adult A. aegypti, and in supporting egg production, viability of eggs, and development of third-stage larvae of D. immitis in A. aegypti was analyzed. Fructose, glucose, maltose, sucrose, and trehalose provided the strongest support for survival of adult male, and infected and uninfected adult female A. aegypti. Galactose and melibiose provided the least support for survival of all groups of mosquitoes. The mean number of eggs laid per uninfected adult female A. aegypti was greatest when mosquitoes were maintained on glucose, melibiose, maltose, fructose, sucrose, and trehalose. The same was true for female mosquitoes infected with D. immitis; except for melibiose which provided poor support for egg production. In both Dirofilaria-infected and in uninfected mosquitoes, galactose supported the production of low mean numbers of eggs per adult female A. aegypti. High percentages of eggs laid by uninfected and by infected female mosquitoes fed glucose, melibiose, maltose, sucrose, and trehalose hatched. While galactose supported a high percentage of hatching in eggs laid by uninfected A. aegypti, a much lower percentage of eggs laid by infected female mosquitoes maintained on this same carbohydrate hatched. The lowest percentages of eggs that hatched were from among those laid by infected and by uninfected females fed fructose. The highest mean number of D. immitis larvae (L₃) were recovered from adult A. aegypti fed glucose, maltose, fructose, and sucrose; the second best sugar in this regard was trehalose. The lowest mean number of D. immitis larvae were isolated from female A. aegypti fed galactose and melibiose.     

Sugar convertibility in the parasitoid Cotesia glomerata (Hymenoptera: Braconidae)

Lack of suitable sugar sources for adult parasitic wasps is an important cause of failure in biological control programs, but the metabolic constraints of sugar feeding are poorly understood. Here we investigated the suitability of 11 naturally occurring sugars as energy sources for the parasitoid Cotesia glomerata (L.) (Hymenoptera: Braconidae). By feeding energy-deprived individuals with given quantities of a 40% (w:w) sugar solution, we assessed recovery time and lifespan after feeding. More than 50% of the wasps recovered within 20 min, and at least 80% within 60 min after uptake of one of the monosaccharides fructose or glucose, the disaccharide sucrose, or the trisaccharide melezitose. Between 40 to 80% of the test insects recovered within an hour after intake of maltose, raffinose, galactose, or mannose. Less than 25% recovered within 1 h after uptake of melibiose, trehalose, rhamnose, or water (control). Parasitoids obtained the highest lifespan benefits after intake of glucose, fructose, sucrose, or melezitose, indicating and confirming their convertibility as an energy source for C. glomerata. In contrast, no lifespan increase was found after consumption of rhamnose and trehalose. The differences in recovery time and lifespan are discussed in terms of parasitoid enzyme activity and metabolic processes.     

Aphid–ant mutualism: how honeydew sugars influence the behaviour of ant scouts

Honeydew is the keystone on which ant–aphid mutualism is built. The present study investigates how each sugar identified in Aphis fabae Scopoli honeydew acts upon the feeding and the laying of a recruitment trail by scouts of the aphid‐tending ant Lasius niger Linnaeus, and thus may enhance collective exploitation by the ant mutualists. The feeding preferences shown by L. niger for honeydew sugars are: melezitose = sucrose = raffinose > glucose = fructose > maltose = trehalose = melibiose = xylose. Although feeding is a prerequisite to the launching of trail recruitment, the reverse is not necessarily true: not all ingested sugar solutions elicit a trail‐laying behaviour among fed scouts. Trail mark laying is only triggered by raffinose, sucrose or melezitose, with the latter sugar being specific to honeydew. By comparing gustatory and recruitment responses of ant foragers to sugar food sources, the present study clarifies the role of honeydew composition both as a source of energy and as a mediator in ant–aphid interactions. Lasius niger feeding preferences can be related to the physiological suitability of each sugar (i.e. their detection by gustatory receptors as well as their ability to be digested and converted into energy). Regarding recruitment, the aphid‐synthesized oligosaccharide (melezitose) could be used by ant scouts as a cue indicative of a long‐lasting productive resource that is worthy of collective exploitation and defence against competitors or aphid predators.     

The unusual sugar composition in leaves of the resurrection plant Myrothamnus flabellifolia

To understand mechanisms of osmoprotection, the composition of sugars and related compounds were analyzed in extracts of fully hydrated and desiccated leaves of the desiccation-tolerant resurrection plant Myrothamnus flabellifolia . During the dehydration process the concentrations of fructose and glucose decrease, whereas sucrose, arbutin and glucopyranosyl-β-glycerol increase. The substances were identified by GC-MS and NMR-analyses. This is the first report of large amounts of glucopyranosyl-β-glycerol in higher plants which may act as an osmoprotectant. Significant levels of the nonreducing sugar trehalose were present in all samples tested.     

弗里熊蜂蜜罐中糖液成分分析

【目的】熊蜂是众多植物的重要传粉昆虫,以采集并贮藏花蜜和花粉为主要食物。本研究旨在探究熊蜂的营养需求及明确其对采集的食物是否存在酿制过程。【方法】利用白砂糖溶液(糖浓度50%)饲喂弗里熊蜂Bombus friseanus蜂群,收集并检测其贮藏在蜜罐中1~7 d的糖液,作为处理组样品;同时将上述白砂糖溶液置于灭菌离心管中,排除熊蜂取食,作为对照组样品,测定贮藏期间处理组和对照组糖液的pH值、糖浓度、糖组分及α-淀粉酶和转化酶活性。【结果】弗里熊蜂B. friseanus贮藏在蜜中1~7d的糖液pH值平均为3.74±0.13,显著低于对照组(6.55±0.15);糖浓度与贮藏时间显著正相关,贮藏6d后糖浓度显著高于贮藏1~3 d时的;糖液组分更加丰富,除蔗糖外利用HPLC还检出果糖、葡萄糖、麦芽糖和海藻糖,贮藏4~5 d的糖液中己糖含量极显著高于贮藏1~3 d和6~7 d时的,己糖和麦芽糖含量分别与蔗糖含量极显著负相关,总糖中果糖和麦芽糖含量与贮藏时间极显著负相关,葡萄糖、蔗糖和海藻糖的含量分别与贮藏时间极显著正相关。贮藏6 d的糖液中α-淀粉酶活性显著高于其他时间,其他贮藏时间样品间α-淀粉酶活性差异不显著,而所有样本的转化酶活性在21.17~38.05 U/g FW之间,随贮藏时间的延长差异不显著。【结论】弗里熊蜂B. friseanus采集人工饲喂的糖溶液贮藏在蜜罐中,经其加工后发生了物理和生物化学变化,揭示熊蜂存在酿蜜能力。本研究的结果为熊蜂生物学及繁育研究提供了参考。     

A comparison of nectar- and honeydew sugars with respect to their utilization by the hymenopteran parasitoid Cotesia glomerata

Fourteen naturally occurring sugars were individually tested with respect to their effect on Cotesia glomerata longevity. Parasitoids kept with solutions of either sucrose, glucose and fructose lived for >30 days. This constitutes a factor 15 increase in life span in comparison to control individuals kept with water only. Stachyose, mannose, melezitose, melibiose, maltose and erlose increased parasitoid longevity by a factor of 11.2-6.9. Solutions of galactose and trehalose had a marginal, but still significant effect. Lactose and raffinose did not raise parasitoid longevity, while rhamnose actually reduced parasitoid survival. In an additional experiment, the relationship between quantity of sugar consumption and longevity was established for all 14 sugars. To study the effect of an unsuitable sugar in sugar mixtures, a range of glucose:rhamnose mixtures was tested. Even at 20% of the sugar mixture rhamnose suppressed the nutritional benefit of the 80% glucose. The nutritional suitability of the sugars shows a positive correlation with the previously reported gustatory response towards the individual sugars. Patterns of sugar utilization are discussed with respect to hydrolytic enzymes and carbohydrate biochemical characteristics. Our findings for C. glomerata are compared to patterns of sugar utilization reported for other species. The comparison between C. glomerata and its host Pieris brassicae reveals that the parasitoid is capable of utilizing a range of sugars that are unsuitable to its herbivorous host. This specificity opens up opportunities to select food supplements for biological control programs that selectively target the antagonist, without concurrently enhancing herbivore fitness.