Critical thermal maximum of seven estuarine fishes

Critical thermal maximum (CTM) and loss of righting response (LRR) were determined in seven estuarine fishes. The critical thermal maxima (CTM) ranged from 39.5°C to 44.5°C for fishes acclimated to 28°C. Lates calcarifer and Liza dussumeri had the highest CTM (44.5°C) and Siganus javus had the lowest CTM (39.5°C). The rate of change of CTM due to thermal acclimation was determined for Etroplus suratensis and Therapon jarbua. The CTM for E.suratensis increased from 39.75°C to 43.5°C on a 15°C increase in acclimation temperature and the CTM of T. jarbua shifted from 40.75°C to 43.15°C on a 15°C increase in acclimation. The acclimation response ratio (ARR) as a result of increasing the acclimation temperature was about 0.25 in E. suratensis and 0.2 in T. jarbua.     

Effect of temperature on spawning of Penaeus merguiensis

The maturation rate and spawning performance of ablated Penaeus merguiensis were significantly (P<0.05) higher at 27°C than at 23°C. Increasing the temperature from 23°C to 27°C further improved spawning performance (P<0.05), whereas reducing the temperature from 27°C to 23°C impaired spawning. The effect of temperature during the inducing period was more critical than during the holding period. Prawn growth (% of weight gain), however, was not different between 23°C and 27°C over the 60-day experimental period (P>0.05).     

Inhibition of photosynthesis by chilling in the light

The photosynthetic activity of leaf slices from Spinacia oleracea L., Cucumis sativus L. and Nerium oleander L. was measured in 25° C immediately after preincubation for 2.5 h at various photon flux densities (PFD) with chilling at 4°C, or at a moderate (450 μmol m⁻² s⁻¹) PFD with various temperatures below 25°C. Inhibition of photosynthesis was evident in C. sativus and 45°C-grown N. oleander after preincubation at 4°C at all PFD. The inhibition was most severe at fluxes in excess of the moderate PFD under which the plants were grown. Photosynthesis in S. oleracea and 20°C-grown N. oleander was not inhibited at 4°C unless the PFD was in excess of this moderate PFD. The inhibition of photosynthesis was initiated in C. sativus below 13°C, and in 45°C-grown N. oleander below 8°C. A phase transition in the polar lipids from the thylakoids of these plants was detected at about the same temperatures. For S. oleracea and 20°C-grown N. oleander preincubated under the same conditions, there was no inhibition of photosynthesis and no phase transition above 0°C. These results show that some component of photosynthesis was disrupted in the light at temperatures below that of the phase transition in the thylakoid polar lipids.     

Alternating temperatures affect life table parameters of Phytoseiulus persimilis, Neoseiulus californicus (Acari: Phytoseiidae) and their prey Tetranychus urticae (Acari: Tetranychidae)

Increasing energy costs force glasshouse growers to switch to energy saving strategies. In the temperature integration approach, considerable daily temperature variations are allowed, which not only have an important influence on plant growth but also on the development rate of arthropods in the crop. Therefore, we examined the influence of two constant temperature regimes (15 °C/15 °C and 20 °C/20 °C) and one alternating temperature regime (20 °C/5 °C, with an average of 15 °C) on life table parameters of Phytoseiulus persimilis and Neoseiulus californicus and their target pest, the two-spotted spider mite Tetranychus urticae at a 16:8 (L:D) h photoperiod and 65 ± 5 % RH. For females of both predatory mites the alternating temperature regime resulted in a 25–30 % shorter developmental time as compared to the corresponding mean constant temperature regime of 15 °C/15 °C. The immature development of female spider mites was prolonged for 7 days at 15 °C/15 °C as compared to 20 °C/5 °C. With a daytime temperature of 20 °C, no differences in lifetime fecundity were observed between a nighttime temperature of 20 and 5 °C for P. persimilis and T. urticae. The two latter species did show a higher lifetime fecundity at 20 °C/5 °C than at 15 °C/15 °C, and their daily fecundity at the alternating regime was about 30 % higher than at the corresponding mean constant temperature. P. persimilis and T. urticae showed no differences in sex ratio between the three temperature regimes, whereas the proportion of N. californicus females at 15 °C/15 °C (54.2 %) was significantly lower than that at 20 °C/5 °C (69.4 %) and 20 °C/20 °C (67.2 %). Intrinsic rates of increase were higher at the alternating temperature than at the corresponding mean constant temperature for both pest and predators. Our results indicate that thermal responses of the studied phytoseiid predators to alternating temperature regimes used in energy saving strategies in glasshouse crops may have consequences for their efficacy in biological control programs.     

Infection of the intermediate mite host with Wolbachia-depleted Litomosoides sigmodontis microfilariae: impaired L1 to L3 development and subsequent sex-ratio distortion in adult worms

The rodent filaria Litomosoides sigmodontis harbour Wolbachia, endosymbionts essential for worm embryogenesis, larval development and adult survival. To study the effect of tetracycline, which depletes Wolbachia, on the development of microfilariae (L1s, MF) to L3 in the intermediate host Ornithonyssus bacoti, and to observe the development of Wolbachia-depleted L3s in Mongolian gerbils (Meriones unguiculatus); microfilaremic gerbils were treated orally with tetracycline for 6 weeks (primary infected (1°) Tet) or untreated (1° Con). Treatment resulted in a significant reduction of Wolbachia per MF in 1° Tet gerbils. Naïve mites then fed on the 1° Tet and 1° Con gerbils in the week after treatment ended, when MF levels were not significantly different, and used to infect new gerbils (secondary infected (2°) Tet, 2° Con) via natural infection. The infection rate from dissected mites was 9% and 54% (1° Tet and 1° Con, respectively). After 3 months, worms were isolated from 2° gerbils. Significantly fewer female worms developed in 2° Tet gerbils. In contrast, there was no difference in the number of male worms that developed in 2° gerbils, resulting in a male biased sex-ratio. Although 2° Tet male worms had fewer Wolbachia than 2° Con males, development was not impaired. Female worms that developed from Wolbachia-depleted MF had Wolbachia levels equivalent to worms from 2° Con animals. Thus, tetracycline pre-treatment selected for female worms with high numbers of Wolbachia, whereas male worms had median Wolbachia levels significantly lower than 2° Con males. Therefore, female worms require a higher threshold of Wolbachia for their development. The worms analysed were only exposed to tetracycline as MF, ruling out direct effects of tetracycline during larval development in the mites or 2° gerbils, suggesting that the depletion of Wolbachia in MF was the cause of impaired larval development.     

Spectroelectrochemistry of ferrioxamine B,ferrichrome, and ferrichrome A

Thin-layer spectroelectrochemical techniques were used to determine the entropy change for the reduction of the three siderophores ferrioxamine B, ferrichrome, and ferrichrome A. The entropy changes were found to be large and negative. The _ΔS° values obtained are: ferrioxamine B. pH 10.2, _ΔS° = ?33.3 ± 0.4 eu; pH 9.0, _ΔS° = ?26.9 ± 0.9 eu; pH 8.0, _ΔS° = ?23.3 ± 1.2 eu; ferrichrome, pH 10.0, ΔS° = ?42.6 ± 0.5 eu; pH 9.1, ΔS° = ?35.8 ± 0.4 eu; pH 7.3, ΔS° = ?74.5 ± 3.4 eu; ferrichrome A, pH 10.1, _ΔS° = ?35.6 ± 0.9 eu; pH 9.1, _ΔS° = ?34.3 ± 0.9 eu; pH 7.9, _ΔS° = ?31.7 ± 0.9 eu. These values are adjusted to the scale on which S°_H + = 0. The large decreases in entropy upon reduction are attributed to an increase in the solvent ordering around the ferrous complex. Upon reduction, the rigid structure of the ferric chelate is loosened and previously sequestered amide groups are made available for solvent interactions. This increased interaction with solvent causes an increase in the order of the water around the molecule and this is responsible for the observed entropy changes. Variations in ΔS° values and the pH dependencies of these values are attributed to structural peculiarities of the individual siderophores.     

Comparative laboratory studies on three fungal pathogens of the elm bark beetle Scolytus scolytus: Effect of temperature and humidity on infection by Beauveria bassiana,Metarhizium anisopliae, and Paecilomyces farinosus

Larvae of the elm bark beetle, Scolytus scolytus, were inoculated with conidia of the entomogenous fungi Beauveria bassiana (two strains), Metarhizium anisopliae (two strains), and Paecilomyces farinosus (two strains) and incubated over a range of temperatures (2°, 6°, 10°, 15°, and 20°C). One strain each of B. bassiana and P. farinosus caused infection even at 2°C, whereas the two strains of M. anisopliae caused no infection below 10°C. Infection of adult beetles by B. bassiana (one strain) and M. anisopliae (one strain) was tested at 15°, 20°, and 25°C (B. bassiana) and at 15° and 20°C (M. anisopliae). Fungal infection occurred at all three temperatures, but at 25°C beetles tended to succumb to bacterial infection. The effect of relative humidity on infection of larvae by B. bassiana (one strain), M. anisopliae (one strain), and P. farinosus (one strain) was tested at 51, 74, 86, 90, 95, 97.5, and 100% relative humidity. B. bassiana and M. anisopliae caused some infection at all humidities: with P. farinosus there was no infection at the two lowest humidities. Mortality due to infection by these fungi was most rapid at the highest humidities.     

Development of Geocoris varius and G. proteus (Hemiptera: Geocoridae) provided with Ephestia kuehniella (Lepidoptera: Pyralidae) eggs

We studied the development of Geocoris varius (Uhler) and Geocoris proteus Distant reared on Ephestia kuehniella Zeller eggs at 20, 24, 26, 30, 33, or 36?°C. The lower developmental thresholds (T ₀) and the thermal constants (K) of eggs and nymphs of G. varius were 13.3?°C, 151.1 degree-days and 13.4?°C, 433.0 degree-days, respectively; those of G. proteus were 16.1?°C, 98.3 degree-days and 16.9?°C, 226.9 degree-days, respectively. The hatch rate of G. varius eggs was significantly lower at 33?°C than at ??30?°C, and no eggs hatched at 36?°C. That of G. proteus was lowest at 20?°C and did not decline significantly at 36?°C. The survival rate throughout the nymphal period increased with temperature up to 30?°C in G. varius, and it was lowest at 20?°C in G. proteus. Thus, the optimal rearing temperatures for immature stages appear to be about 24?C30?°C for G. varius and 26?C33?°C for G. proteus. It might be possible to improve the efficiency of their mass production by controlling the rearing temperature in the above ranges. This would also make the developmental stages of nymphs more uniform and so prevent cannibalism in mass rearing.     

Influence of temperature on the oviposition rate and longevity ofOpius concolor siculus [Hymenoptera: Braconidae]

The author has studied the influence of different temperatures (22°, 24°, 26°, 28°C) on oviposition and longevity ofOpius concolor siculus Mon., studying separately 13 couples at 22°, 15 at 24°, 100 at 26° and 11 at 28°C. The optimum temperature has been found to be 26°C. Differences have been observed betweenO. concolor Szepl. «African» andO. concolor siculus Mon. «Sicilian».     

Behavioural thermoregulation and critical thermal limits of Macrobrachium acanthurus (Wiegman)

• (1)The preferred temperatures of Macrobrachium acanthurus were determined for prawns acclimated to 20°C, 23°C, 26°C, 29°C and 32°C, and the final preferendum estimate was (29.5°C).
• (2)The critical thermal minima (CTMin) and maxima (CTMax) were 11.0°C, 12.1°C, 13.0°C and 14.8°C, and 34.2°C, 35.0°C, 36.1°C and 39.8°C, respectively.
• (3)The zone of thermal tolerance assessed using the CTMin and CTMax boundaries was 644°C².
• (4)The acclimation response ratio was between 0.33 and 0.62.
• (5)To cultivate this species in the southeastern region of México it should be done in not <15°C (CTMin) during the winter and below 38°C in summer (CTMax).

     

Thermal activity thresholds of the predatory mirid Nesidiocoris tenuis: implications for its efficacy as a biological control agent

This study investigates the thermal activity thresholds of the predatory mirid Nesidiocoris tenuis Reuter (Hemiptera: Miridae) and two spotted spider mite Tetranychus urticae Koch (Acari: Tetranychidae). Adult N. tenuis lost locomotory function and entered chill coma at significantly lower temperatures (4.0°C and 0.3°C, respectively) than adult T. urticae (7.0°C and 5.7°C, respectively). However, the mirids were more adversely affected by high temperatures, with T. urticae losing the ability to walk and entering heat coma at higher temperatures (47.3°C and 49.7°C, respectively) than N. tenuis (43.5°C and 46.6°C, respectively). Across a range of temperatures (2.5–20°C) adult N. tenuis had faster walking speeds than T. urticae. These data are discussed in relation to the climatic conditions under which N. tenuis would be an effective biocontrol agent.     

Metarhizium spp. isolates from madagascar: Morphology and effect of high temperature on growth and infectivity to the migratory locust,Locusta migratoria

Five strains ofMetarhizium anisopliae (Metsch.) Sorokin and one strain ofMetarhizium flavoviride Gams &; Rozsypal originally isolated in Madagascar were studied. Measurements of conidia and, for the first time, also of blastospores produced in a liquid medium were used for species and variety determination. Blastospores ofM. flavoviride were more homogenous in their size than those ofM. anisopliae. Growth at high temperatures between 25° and 40°C showed that 4 isolates ofM. anisopliae grew at 36°C andM. flavoviride grew at 38°C. Using alternating day/night temperatures (8/16 h) the three strains tested could also tolerate 40°/25°C. In bioassays, fiveMetarhizium spp. isolates were tested against third and fourth instar larvae ofLocusta migratoria (L.) at two alternating day/night temperatures of 30°/25°C and 36°/25°C. In the cooler regime, all strains caused a mortality of 50% within 5.9 to 8.5 days (median lethal time), while in the 36°/25°C treatment only the thermophilicM. flavoviride and oneM. anisopliae strain isolated from a soil sample gave comparable results with median lethal times of 6.8 and 7.3 days, respectively.     

Thermal adaptation of Tetrahymena membranes with special reference to mitochondria II. Preferential interaction of cardiolipin with specific molecular species of phospholipid

A specific effect of cardiolipin on fluidity of mitochondrial membranes was demonstrated in Tetrahymena cells acclimated to a lower temperature in the previous report (Yamauchi, T., Ohki, K., Maruyama, H. and Nozawa, Y. (1981) Biochim. Biophys. Acta 649, 385–392). This study was further confirmed by the experiment using fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene (DPH). Anisotropy of DPH for microsomal and pellicular total lipids from Tetrahymena cells showed that membrane fluidity of these lipids increased gradually as the cells were incubated at 15°C after the shift down of growth temperature from 39°C. However, membrane fluidity of mitochondrial total lipids was kept constant up to 10 h. This finding is compatible with the result obtained using spin probe in the previous report. Additionally, the break-point temperature of DPH anisotropy was not changed in mitochondrial lipids whereas those temperatures in pellicular and microsomal lipids lowered during the incubation at 15°C. Interaction between cardiolipins and various phospholipids, which were isolated from Tetrahymena cells grown at 39°C or 15°C and synthesized chemically, was investigated extensively using a spin labeling technique. The addition of cardiolipins from Tetrahymena cells grown at either 39°C or 15°C did not change the membrane fluidity (measured at 15°C) of phosphatidylcholine from whole cells grown at 39°C. On the other hand, both cardiolipins of 39°C-grown and 15°C-grown cells decreased the membrane fluidity of phosphatidylcholine from Tetrahymena cells grown at 15°C. The same results were obtained for phosphatidylcholines of mitochondria and microsomes. Membrane fluidity of phosphatidylethanolamine, isolated from cells grown at 15°C, was reduced to a small extent by Tetrahymena cardiolipin whereas that of 39°C-grown cells was not changed. Representative molecular species of phosphatidylcholines of cells grown at 39°C and 15°C were synthesized chemically; 1-palmitoyl-2-oleoylphosphatidylcholine for 39°C-grown cells and dipalmitoleoylphosphatidylcholine for 15°C-grown ones. By the addition of Tetrahymena cardiolipin, the membrane fluidity of 1-palmitoyl-2-oleoylphosphatidylcholine was not changed but that of dipalmitoleoylphosphatidylcholine was decreased markedly. These phenomena were caused by Tetrahymena cardiolipin. However, bovine heart cardiolipin, which has a different composition of fatty acyl chains from the Tetrahymena one, exerted only a small effect.     

Effects of temperature on eggs and larvae of Anisakis simplex sensu stricto and Anisakis pegreffii (Nematoda: Anisakidae) and its possible role on their geographic distributions

Effects of temperature on development of eggs, recently hatched larvae and L3 larvae of the marine parasitic nematodes Anisakis simplex sensu stricto (s.s.) and A. pegreffii were examined in vitro. The eggs of A. simplex s.s. hatched at 3–25 °C and those of A. pegreffii hatched at 3–27 °C. Days before hatching varied between 2 days at 25 °C and 35–36 days at 3 °C in A. simplex s.s. and between 2 and 3 days at 27 °C and 65 days at 3 °C in A. pegreffii. Hatching rates of A. simplex s.s. were maintained high at temperatures between 3 and 25 °C but decreased to 0% at 27 °C. In contrast, those of A. pegreffii were lowest particularly at 3 °C, but also at 27 °C. The mean 50% survivals of hatched larvae ranged from 5.3 days at 25 °C to 82.3 days at 9 °C in A. simplex s.s., while in A. pegreffii it ranged from 1.2 days at 27 °C to 77.2 days at 9 °C. L3 larvae of A. pegreffii exhibited higher survival rates and activity than those of A. simplex s.s., particularly at 20 and 25 °C. These results suggest that the early stages of A. simplex s.s. are more adapted to lower temperatures whereas those of A. pegreffii are more tolerant to warm environments, which may correspond to their distribution patterns in Japan and Europe.     

Effect of temperature and humidity on the development ofPhytoseiulus Persimilis and its ability to regulate populations ofTetranychus urticae [Acarina: Phytoseiidae. Tetranychidae]

The development ofPhytoseiulus persimilis Athias-Henriot and the effectiveness of it as a predator ofTetranychus urticae (Koch) were studied at constant temperatures of 15°, 18°, 21°, 24° and 27°C (humidity fluctuations from 60% to 90% R.H.) and at constant humidities of 40% and 80% R.H. at the temperatures 21° and 27°. Optimal temperature for time of development was 27° (at 60%–85% R.H.). A high reduction in egg vitality was recorded at 40% R. H. and 27% At 21° the egg vitality was only slightly lower at 40% R.H. than at 80% R.H. The predator gave control ofT. urticae at temperatures from 15° to 27° (humidity fluctuation from 60%–90% R.H.), and the most rapid and efficient control was obtained at 27° (60%–85% R.H.). The predator did not give sufficient control ofT. urticae at 27° and 40% R.H. At 21° control ofT. urticae was obtained at both 40% and 80% R.H., but the prey population was reduced faster at 80% R.H. than at 40% R.H.     

Brain temperature regulation of panting and non-panting pigeons exposed to extreme thermal conditions

• 1.1. Brain (hypothalamic), skin and body temperatures were measured in hand-reared acclimated (Acc, n = 5) and non-acclimated (NAcc, n =7) rock pigeons (Columba livia, mean body mass 237 g) exposed to increasing ambient temperatures (T_a) (30–60°C) and low humidities.
• 2.2. In non-panting Acc birds, brain temperature gradually increased from 40.1 ± 0.4°C at 30°C to 41.2 ± 0.4°C at 60°C T_a. A mean body temperature (T_b) of 41.2 ± 0.2°C was measured at T_a up to 50°C; an increase of 1.1°C was observed at 60°C (T_b 42.2 ±0.6°C).
• 3.3. In Acc panting birds exposed for 2 hr to 60°C, T_hy was 41.9 ± 0.8°C and T_s was somewhat (but insignificantly) higher, i.e., 42.2 ± 0.7°C. It looks as if both values were increased as a result of a slight hyperthermia that developed (T_b = 43.5 ± 0.9°C).
• 4.4. The significance of the present results for evaluating neuronal thermoresponsiveness of birds' hypothalamus is discussed.

     

Thermal resistance time of estuarine fishes Etroplus suratensis and Therapon jarbua

The resistance time of Etroplus suratensis (Bloch) and Therapon jarbua (Forsskal) were determined for fish acclimated to a series of temperatures 20°C, 25°C, 28°C, 30°C, and 35°C. The results indicated that these two species of fishes showed increased thermal resistance when acclimation temperatures were increased or decreased, respectively. The biokinetic range of temperature for E. suratensis is from 12°C to 46°C and that for T. jarbua is from 8°C to 44°C.     

Development and reproduction of a potential biological control agent, Aphelinus varipes (Hymenoptera: Aphelinidae), at different temperatures

The development and reproductive potential of an indigenous parasitoid, Aphelinus varipes (Förster), was studied at 15, 17, 20, 25, and 30 °C. Developmental durations decreased with increasing temperatures. The emergence rate was higher than 90 % at 15, 17, and 20 °C. Offspring sex ratios were 0.69, 0.54, and 0.70 at 17, 20, and 25 °C, respectively, but were 0.14 at 15 °C and 0.38 at 30 °C. Developmental zeros of females and males were calculated as 9.9 and 9.6 °C, respectively. The effective accumulative temperature (K) was 204.1 degree-days in both sexes. Fecundity peaked in early age after emergence, then gradually decreased in a fluctuating manner at 20 and 25 °C. Host feeding continued constantly during the life of female adults at two temperatures. Single female parasitoids produced 218.5 and 203.1 mummies at 20 and 25 °C, respectively, during their lifespans. Aphids killed by parasitoid host feeding numbered 79.1 at 20 °C and 63.8 at 25 °C. Longevities were 27.0 days at 20 °C and 20.6 days at 25 °C. Moreover, intrinsic rates of natural increase (r _m) were estimated as 0.151 at 20 °C and 0.227 at 25 °C. We discuss the potential of A. varipes as biological control agents by comparing them with Aphidius colemani Viereck, which has been introduced to horticultural crops in greenhouses in Japan.     

Effect of environmental temperature on development, fecundity, survival and predation of the snail-predatorSarcophaga misera (Dipt., Sarcophagidae)

Effect of temperature (10°–45°C) on development, fecundity, survival, population parameters, and rate of predation on snail by the flySarcophaga (Parasarcophaga) misera has been studied under controlled laboratory conditions. Temperatures ranging from 25°–30°C effected higher rate of development, fecundity, and predation on the snailIndoplanorbis exustus, than at 15°, 20°, 35° & 40°C. Longevity was maximum at 20°C. Implications of the role of temperature in influencing the biology and predation by this fly are discussed.     

Effects of temperature and host age upon the encapsulation of Metaphycus stanleyi and Metaphycus helvolus eggs by brown soft scale Coccus hesperidum

Encapsulation of eggs inserted by Metaphycus stanleyi (Hymenoptera: Encyrtidae) into the brown soft scale Coccus hesperidum (Homoptera: Coccidae) became more frequent as the host matured. This occurred with both laboratory reared and field-collected parasites. After parasitism for 24 hr at 27°C, encapsulation frequency did not differ in hosts reared at 20° or at 27°C, but significantly increased in hosts reared at 33°C. When parasitism and rearing were carried out at the same temperature, the percentage of eggs encapsulated increased from 48.7% at 27°C to 94.1% at 33°C. With M. helvolus, the percentage of eggs encapsulated was considerably higher than with M. stanleyi; e.g., 99.3 vs 48.7%, respectively, at 27°C. At 20° and 27°C, some M. helvolus development occurred in the larvae of brown soft scale but none at 33°C; the adult stages of the host encapsulated all the parasite eggs at these temperatures.