Interactions between year classes in the benthic amphipod Monoporeia affinis: effects on juvenile survival and growth

Summary The effect of 1-year-old Monoporeia (=Pontoporeia) affinis on the survival and growth of young of the year was studied in laboratory experiments. Amphipods were kept in jars with sediment and a continuous supply of cooled water for 3 months. Adults or juveniles were added to a control density of juveniles. Juvenile mortality increased at higher total densities, and was greater when adults were present. The mean length and dry weight of juveniles decreased at higher densities, but adults did not have a greater effect than juveniles. These density-dependent effects are probably caused by competition for food within and between year classes. Thus, a high abundance of juveniles or adults could reduce the recruitment of juveniles into the adult year-class the following year, and the suppression of juvenile growth could lower fecundity. The results of this experiment support the hypothesis, inferred from field data from the Baltic Sea and Swedish lakes, that intraspecific interactions contribute to fluctuations in the abundance of populations of M. affinis.     

The effect of temperature on the post-embryonic growth of Neomysis intermedia Czernlawsky (Crustacea, Mysidacea) under laboratory conditions

The effect of temperature on post-embryonic growth of Neomysisintermedia was investigated under unlimited food conditionsin the laboratory. The effect of temperature on the size ofnewly released animals was negligibly small, but body size wasinversely related to temperature in adults. This was mainlycaused by the difference in the number of molts before maturation.The specific growth rate of N. intermedia increased exponentiallywith a temperature coefficient, Q₁₀ of 4.6 from 0.018 d^–13C to 0.21 d^–1 at 20C in juveniles, and with a temperaturecoefficient of 2.7 from 0.006 d^–1 at 3C to 0.05 d^–1at 25C in adults. The rate in juveniles levelled off above20C, and dropped at 29C. Brood size and brood interval decreasedwith temperature increase, while the daily specific reproductionrate increased. The specific growth rate of gravid females,including production of egg matter, increased exponentiallywith a temperature coefficient of 3.3 from 0.015 d^–1 at10C to 0.093 d^–1 at 25C. The present laboratory experiments confirmed the temperaturecontrol on the growth of N. intermedia suggested in a hyper-eutrophiclake.     

Effects of different natural regimes of temperature and food on survival, growth and development of Artemia monica Verrill

Each year, two generations of Artemia monica Verrill developunder different environmental conditions in hypersaline MonoLake, California, USA. The first generation develops duringspring when food levels are high and temperatures are low andwarming slowly. The second generation develops during summerat low food levels and higher initial temperatures which continueto warm. In three experimental treatments, the development,growth and survival of first-and second-generation Artmia weredetermined under laboratory conditions which tracked the naturaltemperature and food regimes in the lake. Two food treatmentswere administered concurrently at low temperatures to first-generationshrimp, representing the high levels usually found during thespring (spring-high-food) and reduced food levels observed duringa recent 6 year period of meromixis (spring-low-food). The thirdtreatment of low food and higher temperatures was administeredto second-generation shrimp in summer (summer-low-food). Thedevelopment to adulthood and onset of reproduction occurred5 days sooner in the high-food treatment than in the low-foodtreatment of the spring experiment, while development was 2–3times faster in the warmer, summer-low-food treatment. Underspring-high-food conditions, shrimp had a higher survival toadulthood (46%) and lower daily mortality rate (0.012 day^–1)than in the spring-low-food treatment (30% survival and a 0.015day^–1 mortality rate). Survival to adult hood of summer-low-foodanimals (49%) was similar to that in spring-high-food; however,the daily mortality rate was twice as high (0.029 day^–1).While instar-specific length did not vary among treatments,instar-specific weights of juveniles and adults were lower inthe summer-low-food treatment than in the other two treatments.Since food in the summer-low-food treatment was lower and temperatures higher than in the spring-low-food treatment, thelower weights in summer may be explained by food rather thantemperature, or by both. The cumulative secondary productionof single cohorts was lowest in the summer (0.32 mg dry weightindividual^–1) due to low individual weights and highestunder spring-high-food conditions (1.1 mg dry weight individual^–1).     

The role of pelagic water mites in the control of cladoceran population in a temperate lake of the southern Andes

In a small temperate lake of the southern Andes, Bosmina longirostrisand Ceriodaphnia dubia coexist with the predaceous water miteLimnesia patagonica. Sampling of natural populations and laboratoryexperiments were carried out. The field population of Limnesiadid not show a numerical response to the density or biomassof its prey. Laboratory experiments showed that the water miterejected C.dubia adults and juveniles as prey, but consumedBosmina. The maximum predation rate was 40 prey predator^–1day^–1 and a linear relationship between predation rateand prey density was obtained (R² = 66%). The contribution ofmortality due to predation and the predation risk are too lowto provoke a prey suppression. By means of computer modelling,the densities of predator necessary to explain half of the totalprey mortality were calculated. These densities were one ortwo orders of magnitude higher than those in the field. It isconcluded that Limnesia could really be a suppressor, but thepotential depends greatly on its density.     

GROWTH, MORTALITY, AND FEEDING RATES OF THE SNAIL HELIX ASPERSA AT DIFFERENT POPULATION DENSITIES IN THE LABORATORY, AND THE DEPRESSION OF ACTIVITY OF HELICID SNAILS BY OTHER INDIVIDUALS, OR THEIR MUCUS

When reared at high densities, young Helix aspersa show lessshell growth, even if waste products are removed. They alsofeed less, and show increased mortality. It is suggested thatthese effects are linked to reduced activity. Juveniles showreduced activity in the presence of adults or their mucus. Mucusof adult Cepaca nemoralis also depresses the activity of bothadult and young Helix and Cepaea. ^* Present Address: Unit Zoologi, Universiti Kebangsaan Malaysia,Jalan Pantai Baru, Kuala Lumpur, West Malaysia. (Received 12 May 1981;     

THE DIET, PREY SIZE AND CONSUMPTION OF PHILINE ORIENTALIS (OPISTHOBRANCHIA: PHILINIDAE) IN HONG KONG

Philine orientalis occurs on Hong Kong's beaches for {smalltilde}2 months each year, in May and June when it breeds, laysegg capsules and dies. It is believed to have a life span ofone year. Hoi Sing Wan, a sandy beach in the New Territoriesof Hong Kong is dominated at lower levels by the venerid bivalveTapes philippinarum, the population of which in May and June,following spring recruitment, mostly comprises juveniles. P.orientalis, occurring at a density of {small tilde} 1.m^–2,feeds voraciously upon these juveniles consuming, in laboratoryexperiments, a mean of 25.day^–1. At Hoi Sing Wan, P. orientalisappears to be highly prey specific. It is, however, known tofeed on other prey items and probably has a catholic diet, duringits annual migration from deeper to shallower sediments, accordingto the prevailing fauna. In terms of wet weight, P. orientalis consumes a mean of {smalltilde}4.4% (2.2–6.7%) of its body weight day^–1.In terms of dry weight, however, this figure increases to amean of 35.5% and one figure of 208% has been recorded. Althoughthis is because of the large body fluid content of this, essentiallyshell-less, gastropod, using a hydrostatic skeleton to achieveburrowing, such figures further attest to the voracity of thebreeding adults. This study joins others in questioning ourpresent understanding of the scale of energy budgets on suchshores, i.e., are our estimates of loss to predation grosslyunderestimated? ^*Present address: Department of Biology, Baptist College, WaterlooRoad, Kowloon, Hong Kong. (Received 20 May 1989; accepted 3 July 1989)     

Interference from a game theoretical perspective: shore crabs suffer most from equal competitors

In virtually all natural systems, interference competition amongindividuals is asymmetric. Here, we used game theoretical modelson contest behavior to predict how time lost in agonistic interactionscould affect strength of interference under asymmetric competition.We hypothesized that interference through time lost in agonisticinteractions would result in a greater reduction in availableforaging time and overall feeding rate under symmetric competitionthan under asymmetric competition. We tested this hypothesisfor male shore crabs (Carcinus maenas) that foraged on mussels(Mytilus edulis) in an experiment where prey levels were keptconstant. We varied absolute size of crabs (juveniles, smalladults, large adults), mussel density (4, 16, 32 per 0.25 m²),and competitor size (smaller, equal, larger). Large adults spentmore time in aggressive behaviors than juveniles or small adults,possibly because large adults were more persistent in interferingor because large adults were intrinsically more aggressive,as the experiment was conducted in the mating season. When handlingprey, crabs mostly avoided competitors, but juveniles and smalladults did so more than large adults. When searching for prey,crabs mostly displaced smaller competitors but threatened oravoided size-matched or larger competitors. By avoiding a competitor,the focal crab lost time but the competitor often did not, andthis asymmetry in agonistic behavior is not yet incorporatedin models on contest behavior. However, overall, negative effectsof others were strongest with size-matched competitors, in linewith our hypothesis.     

Interactions between adult and larval bluegill sunfish: positive and negative effects

Adult fish may affect the growth and survival of conspecific larvae through a variety of pathways, including negative interactions via competition for shared limiting resources or via predation (i.e., cannibalism), and positive interactions due to the consumption of larval predators and via resource enhancement (i.e., presence of adults increases availability of larval prey). To examine the overall effect of adult bluegill sunfish (Lepomis macrochirus) on larval bluegill, we conducted a field experiment in which we manipulated adult densities and quantified larval growth and survival, prey abundance, invertebrate predator abundance, and cannibalism. The presence of adult bluegill had a negative effect on final larval mass. This response was consistent with competition for zooplankton prey. Adult bluegill reduced the abundance of large zooplankton (e.g., Chaoborus and Daphnia), which were the dominant prey of bluegill larvae in the absence of adults. Larvae in the no-adult treatment also had significantly more prey in their stomachs compared to larvae in the presence of adults. Larval survival was maximized at intermediate adult densities and the overall production of larvae peaked at intermediate adult densities. The higher larval survival at intermediate adult densities is attributed to a reduction in invertebrate predators in treatments with adult bluegill; invertebrate predators experienced an 80% reduction in the presence of adult fish. Decreased larval survival at the highest adult density was not due to resource limitation and may be due to cannibalism, which was not directly observed in our study, but has been observed in other studies.     

The influence of food resources on the development, survival and reproduction of the two cyclopoid copepods: Cyclops vicinus and Mesocyclops leuckarti

Laboratory experiments were conducted to determine whether thetwo cyclopoid copepods. Cyclops vicious and Mesocyclops leuckaru.exploit the same food resources. The food requirements of juvenilesof the two cyclopoid copepods were investigated. Moreover, theimportance of algae for the predaceous adults was studied. Naupliiof both M leuckaru and C.vicinus successfully developed intocopepodites when fed the motile algae Chlamydomonas reinhardtii.Chlamydomonas sphaeroides and Cryptomonas sp. Threshold foodconcentrations for naupliar development varied between offeredalgae and between the two cyclopoid species. The food thresholdfor successful naupliar development, when reared on C.reinhardui,was lower for M.leuckarti (0.3 mg C 1^–1) than for C.vicinus(0.5 mg C l^–1) whereas a similar food threshold was foundusing Cryptornonas sp (0.3 mg C ^–1) and C.sphaeroides(<0.2 mg C 1^–1), Naupliar development time was inverselyrelated to food concentration. Food required for copepoditedevelopment differed for the two cyclopoid species. Cyclopsvicinus was able to develop to the adult stage on a pure dietof any one of the three algal species. whereas M.leuckarti requireda prey supply of the rotifer Brachionus rubens. Food composition.i.e. algal species, algal concentration and rotifer abundance,influenced copepodite survivorship of both cyclopoids and wasalways higher in the presence of B.rubens. Under similar foodconditions, mortality was higher for M.leuckarti than for Cvicinus. Mesocyclops leuckaru females were very dependent onanimal food. The predation rate of M.leuckaru was not lowerin the presence of algae. Egg production of M.leuckarti waslow on a pure algal diet and significantly higher when B rubenswas present. The results were used to discuss the life cyclestrategy and the possibility of exploitative competition ofthe two cyclopoid copepods.     

ANNUAL AND LUNAR REPRODUCTIVE CYCLES IN LITTORINA SAXATILIS (OLIVI) AND DIFFERENCES BETWEEN BREEDING IN THE MARINE FIRTH OF FORTH AND THE FORTH ESTUARY

Gonads were most commonly reduced in October and fullest inMar-Jun with more pronounced seasonal differences in the estuarythan in the firth. Brood-pouches accordingly were fullest inspring-early summer and emptiest in autumn-early winter. Eggsand early embryos predominated in brood-pouches of early springbut were few in Aug-Oct whereas well-developed juveniles werefew in early spring, increased in spring-summer and came topredominate in Jun-Nov. Brood-pouch loads varied with size offemale but, for a standard 10 mm female, were significantlylower in the 2 estuarine sites than in the firth. Changes inmean brood-pouch count varied only 2.5-fold during the yearin the firth but 4.10-fold in the estuary. In vitro development of eggs to shelled juveniles with the velumresorbed took some 68 d at 10°C and 32%. Eggs and late brood-pouchjuveniles were significantly heavier in the estuary than inthe firth (dry weight, ash-free dry weight (AFDW), ash weight).AFDW changed little during development while ash weight (mostlyshell) increased 3.5-4.4-fold. In a laboratory tide tank, femalesreleased 60 d means of <1.3 juveniles d^–1; more inmid- and late year than in Jan-Mar, more from upshore firthfemales than from low shore or estuary females, more when heldat high tide-tank levels than at lower levels, and generallyat rates comparable to release in containers held at the siteof origin. Egg production in laboratory females did not keeppace with release of young and, at the end of trials, brood-pouchcounts were mostly lower than in contemporary free winkles.Females that had released most (e.g. at high tank levels) containedleast brood-pouch embryos and young subsequently. Release of young in the tide tank was markedly faster at timesnear new moon (often reaching or exceeding 2 female^–1d^–1) than near full moon (often <1 female^–1 d^–1).This lunar fluctuation was clearest in fast-releasing sets heldat high- or mid-tide tank levels. It was not observed in Jan-Mar(when release from most females was slow) nor in females atlow tank levels. (Received 3 September 1990; accepted 8 November 1990)     

金龟子绿僵菌MaYTTR-04菌株对松墨天牛成虫的致病力

松墨天牛Monochamus alternatus Hope是重大森林植物检疫性病害——松材线虫病的主要媒介昆虫。采用跗节接种法测定金龟子绿僵菌Metarhizium anisopliae MaYTTR-04菌株对松墨天牛成虫的致病力。结果表明： 在恒温条件下,松墨天牛第6天开始死亡,第18天～21天为死亡高峰期,每头成虫接种孢子量为2.3×10⁶±0.2×10⁶时成虫的死亡率第18天达85%,第21天达95%; 时间效应指标值LT₅₀为14.7天。室内自然变温条件下,松墨天牛第3天出现死亡,第15天～21天为死亡高峰期,每头成虫接种孢子量为2.3×10.6±0.2×10⁶时的死亡率在第15天达85%,第21天达100%;时间效应指标值LT₅₀为12.9天。林间套笼21天后,菌液处理的成虫平均死亡率为60%,僵虫率为48.9%;而通过无纺布菌条的成虫死亡率为86.7%,僵虫率为75.6%。表明MaYTTR-04菌株对松墨天牛成虫有强的致病力,且在较高变温环境温度下致病力更强。结果说明该菌株可作为生产性菌株应用于林间防治松墨天牛。     

转Bt基因水稻对两种弹尾虫及尖钩宽黾蝽捕食作用的影响

转Bt基因水稻KMD1、KMD2和对照水稻XS11稻田主要有两种弹尾虫：灰橄榄长角跳虫 Entomobryagriseoolivata (Packard) 和钩圆跳虫 Bourletiella christianseni Banks。两种Bt稻田中灰橄榄长角跳虫种群密度均显著高于对照XS11稻田;在以KMD1和KMD2腐烂 茎叶为食的灰橄榄长角跳虫成虫中检测到微量Cry1Ab杀虫蛋白。室内测定结果表明,不管是单 头捕食还是多头协同捕食,尖钩宽黾蝽Microvelia horvathi Lundblad 成虫对用3种供试 水稻残体饲养的灰橄榄长角跳虫的捕食量和功能反应均符合HollingⅡ型方程,其日捕食量、瞬 时攻击率（a）和处理时间（T_h）均无显著差异。     

Nutritional suitability of the dinoflagellate Ceratium furcoides for four copepod species

The nutritional suitability of Ceratium furcoides for Eudiaplomusgracilis, Mesocyclops leuckarti, Thermocyclops oithonoides andCyclops abyssorum was studied by observing ingestion and assimilation.The dinoflagellate was ingested by female adults of all species.The calanoid copepod E.gracilis could not utilize Ceratium;mortality was high and no egg production was observed when Ceratiumwas the only food source. Mortality was low for the adult cyclopoidson this food and reproduction indicated that Ceratium was assimilated.The first two copepodite instars of M.leuckarti were not ableto handle Ceratium, while older stages preyed on them. The dinoflagellatewas not ingested by female M.leuckarti when its densities werelow. Advanced copepodite stages of C.abyssorum developed intoadults on a diet of Ceratium only. Mesocyclops leuckarti femalesingested Ceratium when offered a mixed food source of Ceratiumand the rotifer Brachionus rubens, but the rotifer was positivelyselected, even if its density was low. The results show thatCeratium provides a suitable food source for advanced copepoditeinstars and adult cyclopoid copepods, although it is not a preferredfood source.     

INVESTIGATIONS OF THE ROLE OF MUCUS AND FAECES IN INTERSPECIFIC INTERACTIONS OF TWO LAND SNAILS

A previous report (Smallridge & Kirby, 1988) showed interspecificcompetition between the two land snails Theba pisana and Cernuellavirgata and suggested the mechanism of competition may be thatheterospecific mucus and excrement inhibits activity. We describea series of experiments in which we could find no consistentevidence for any short-term inhibition of activity in the presenceof heterospecific mucus. Furthermore snails did not consistentlyavoid mucus-treated surfaces or mucus-coated food. Cernuellastopped at and fed from snail faeces (both conspecific and heterospecific)more than did Theba. This suggests an alternate mechanism forinterspecific competition. (Received 9 April 1992; accepted 9 June 1992)     

MICROEVOLUTION AND PHENOTYPIC PLASTICITY IN DONAX SERRA RODING (BIVALVIA: DONACIDAE) ON HIGH ENERGY SANDY BEACHES

Morphological differences between populations of the wedge clamDonax serra inhabiting two different coasts and biogeographicregions of South Africa were investigated. Both adults and juvenilesoccupied different positions along the beach gradient dependingon the coast: on the southeast coast adults occurred in themid intertidal and juveniles and recruits were low intertidalto subtidal; on the west coast the zonation pattern was reversed.Not only adults but also juvenile clams had shapes differingsignificantly between the two coasts; west coast clams werethinner, rounder and had a higher body density than the southeastones-recruits were less dense in the former coast. Differencesin shell shape between coasts are probably the result of directionalselection on the adults with the microevolutionary changes beingmaintained by geographical isolation. Shell density, on theother hand, seems to be environmentally determined through physiologicalcontrol of shell calcification, i.e. more mobile intertidalclams having lower shell density than less mobile subtidal clams.Ontogenetic changes in shape and density are presumably adaptiveand appear to be related to mobility, i.e. the larger, heavierand denser adults being more stable in the substrate, and thesmaller, thinner and less dense juveniles being more mobileand dispersive. Phenotypic plasticity in present D. serra populationsis an important factor that enabled this species to occupy differenthabitats and biogeographic regions and to survive 5 millionyears of environmental changes. ¹ Present address: Laboratory for Ecology and Aquaculture, ZoologicalInstitute, Katholic Universiteit, Leuven, Naamsestraat 59 B-3000,Leuven, Belgium. E-mail: agsoares{at}eudoramail.com (Received 15 October 1997; accepted 5 January 1998)     

LIFE HISTORIES, DENSITY AND BIOMASS IN A WOODLAND SNAIL COMMUNITY

Data, based on 8 monthly sets of random samples, are presentedon the life histories, densities and biomass of snail populationsin a mixed deciduous wood with moderately rich soil. Discus rotundatus, Oxychilus helveticus, O. cellarius and Trichiahispida have approximately annual life cycles, with rather littlepost-reproductive survival. Aegopinella nitiduta and Cochlodinalaminata take two years to reach maturity, and adults of thelatter may survive for several years. Breeding seasons are prolonged,but annual species peak in the autumn. Density does not vary much with season. Mean annual densityof all species combined (37.m^–2) is much lower than thoserecorded for similar woods elsewhere, but the estimate of meanannual standing crop (175 mg ashfree dry weight m^–2) doesnot show the same discrepancy. Comparisons reveal that the maincause of low density is the absence or rarity of several verysmall litter-dwelling species which have little effect on overallbiomass, and reasons for this are discussed. (Received 27 January 1981;     

ASPECTS OF THE LIFE CYCLE, POPULATION DYNAMICS,GROWTH AND SECONDARY PRODUCTION OF THE EDIBLE SNAIL HELIX LUCORUM LINNAEUS, 1758 (GASTROPODA, PULMONATA) IN GREECE

This paper examines the biology and ecology of Helix lucorumL. which lives in mainland Greece, as well as its growth andsecondary production. A demographic study revealed that (a)3 cohorts exist at any time during the year (when adults ofall generations belong to the same cohort) (b) egg-laying andhatching occur during the months of July and August respectively,(c) the most rapid growth takes place during spring. Study ofH. lucorum genitalia in relation to age showed that the snailsaxe sexually mature 3 years after hatching, when the largestdiameter of their shell (D) is equal to or greater than 35 mm Von Bertallanffy's method suggests that Helix lucorum may liveup to 14 years or more in order to reach its possible maximumsize (48.80 mm) The study of relative growth of D in relation to P_s (peristomesurface) of Helix lucorum shows that D grows faster than P_swhen D12.50 mm; juveniles change their growth rate when theirD arrives at 22.05 mm, and growth becomes slower when adultsarrive at 36.27 mm Annual secondary production calculated by the size frequencymethod gave a mean annual density of 3.39 individuals per m²,a mean annual crop (biomass) of 4.04 g-m^–2 and an annualproduction (P) of 5.02 g · m^–2. The annual turnoverratio (P//b) is equal to 1.24 (Received 23 June 1987;     

SPHAERIUM CORNEUM (L.) AND PISIDIUM SPP. PFEIFFER -- THE ECOLOGY OF FRESHWATER BIVALVE MOLLUSCS IN RELATION TO WATER CHEMISTRY

Populations of Sphaerium corneum (L.) and Pisidium spp. weresampled monthly for 13 months, at 11 sites with a wide rangeof water chemistry in N.W. England. Both genera showed almostyear-round reproduction, but the periods of maximum productionshowed between-population variation. S. corneum adults containedspat at different stages of development and spat size was relatedto number in the brood. Multiple regression analysis with 16water physicochemical variables showed the following to be highlysignificant factors (P<0.01) in the distribution of the molluses(factors in order of importance):- S. corneum: HCO₃, K^$, Cl^–, Mg^2$, temperature, Ca^2$, month; Pisidium spp: PO₄^3–, Mg^2$, mud, oxygen, temperature, month. (Received 25 January 1978;     

SEASONAL FLUCTUATIONS IN POPULATION DENSITES OF BULINUS SENEGALENSIS AND B. TRUNCATUS (PLANORBIDAE) IN TEMPORARY POOLS IN A FOCUS OF SCHISTOSOMA HAEMATOBIUM IN NIGER: IMPLICATIONS FOR CONTROL

Annual and seasonal changes in population densities of Bulinussenegalensis Müller 1781 and B. truncatus (Audouin, 1827)were studied in temporary pools of the west sahelian zone inNiger in relation to environmental factors. B. senegalensisis present in the temporary pools whatever their duration, whereasB. truncatus inhabits only the more persistent pools. B. senegalensispopulations develop mostly during the rainy season when thewater temperature is warm. B. truncatus is most abundant afterthe rainy season when the water temperature is cooler, but thissnail may increase when the water temperature is warmer duringunusual rainy seasons with low and intermittent rainfall. Fieldobservations suggest that interspecific competition is exceptionallyoccurring in the pool colonized by both B. senegalensis andB. truncatus. The implications of these observations on treatmentand retreatment schedules for schistosome infection in peopleand on snail control in temporary pools are discussed. (Received 4 May 1993; accepted 22 July 1994)     

COMPETITIVE INTERACTIONS BETWEEN THE LAND SNAILS THEBA PISANA (MULLER) AND CERNUELLA VIRGATA (DA COSTA) FROM SOUTH AUSTRALIA

Changing distribution patterns of T. pisana and C. virgata atcoastal sites around South Australia suggest T. pisana is replacingC. virgata in some areas Under laboratory conditions C. virgata exhibits reduced survivaland growth, is less active and feeds less when kept in the presenceof T. pisana adults and/or their mucus and excrement. If thearea of cooccurrence is large relative to the population size,C. virgata may be displaced to the less favourable habitats.No inhibition of the fecundity of C. virgata was seen. Bothspecies also depress feeding intraspecifically T. pisana also preys on C. virgata under some conditions, notnecessarily when food is limiting It is suggested that these mechanisms act within co-occurringpopulations of the species and result in the exclusion of C.virgata from some areas ^*Present address: 9 Torrens Ave, West Hindmarsh, South Auustralia,5007 (Received 1 November 1986; accepted 15 November 1987)