Selection and characterization of a high-temperature tolerant strain of <Emphasis Type="Italic">Porphyra haitanensis</Emphasis> Chang et Zheng (Bangiales,Rhodophyta)

Porphyra haitanensis is one of the most economical nutritive marine algae; however, its production and quality are significantly jeopardized by high temperatures. Selection of heat-resistant strains will greatly reduce the economic risks and benefit to the nori industry. Three previously isolated and improved strains with a high yield were screened at 28°C and identified, of which one strain, ZS-1, showed significantly improved heat tolerance. Upon further characterizing of the cultures of the ZS-1 strain and the wild-type (WT) strain at 28°C and 30°C, the ZS-1 conchospore germlings survived at rates of 69.9% and 59.6%, while the WT conchospore germlings survived at significantly lower rates of 15.9% and 6.7%, respectively, over a period of 15 days. Furthermore, ZS-1 conchospore germlings divided at significantly higher rates of 100% and 88.6% compared to the WT conchospore germlings with 90.4% and 63.8%, respectively. When the 35-day-old conchospore germlings were transferred from the optimal temperature of 24°C to higher temperatures of 28°C and 30°C, the ZS-1 blades sustained growth over a 25-day period without decay and increase of blade lengths with a factor of 18.5 and 10.3 times, respectively. The blade lengths of the WT germlings only increased by a factor of 1.7 and 0.9 times and began to decay after being cultured for 15 days at 28°C and 30°C. At 24, 28, and 30°C, the ZS-1 blades grew 3.4, 8.6, and 8.0 times faster than those of the WT. Evidently, ZS-1 is a fast-growing and heat-resistant strain compared to the WT strain and may offer an alternative for the nori industry.     

Early development patterns and morphogenesis of blades in four species of <Emphasis Type="Italic">Porphyra</Emphasis> (Bangiales,Rhodophyta)

Pigment mutants were used as genetic markers to study the early development and morphogenesis of blades in four species of Porphyra. In Porphyra haitanensis, P. yezoensis, and P. oligospermatangia, the first two divisions are transverse during conchospore germination, yielding four cells arranged in a line. These species are representative of linear development pattern in Porphyra. Resulting in blades with color sectors vertically arranged. In P. katadai var. hemiphylla, the first division is transverse and the upper cell divides vertically forming two side-by-side cells, and its blades are derived mostly from the upper cell showing a bilateral development pattern with two lateral parts of different colors. In this type of germination, most or the entire blade is derived from the upper cells. Some fronds of P. katadai var. hemiphylla developed in linear pattern. In addition, 9.3% of the conchospore germlings of linear development were produced at 10°C, 15.3% at 15°C, and 38.0% at 20°C for conchospore germlings of P. katadai var. hemiphylla. More linear development occurred at higher temperatures. The results revealed general trends of early developmental patterns and morphogenesis of blades within the genus of Porphyra. Developmental patterns and morphogenesis of blades are under the influence of temperatures.     

Embryology of zygote and development of germling in Sargassum vachellianum Greville (Fucales,Phaeophyta)

Sargassum vachellianum Greville is one of the most important members in the subtidal seaweed flora along the coasts of the Eastern China Sea. In order to understand the embryology of zygotes and development of germlings in S. vachellianum, we performed artificial ripening, systematically observed the morphological changes and development of the fertilized eggs and germlings, and explored the effects of culture conditions on the growth of the germlings. The receptacles matured, and eggs and sperm were released after 1–5 days of culture at 21–24 °C under 60–90 μmol photons m^?2 s^?1 (14L:10D). Once fertilized, zygotes immediately detached from the female receptacles and began to germinate. Eight nuclei in the released fresh zygote soon begun to fuse, forming a large central nucleus, and underwent two horizontal divisions to produce a small “original rhizoid cell,” which eventually formed rhizoids after several divisions, and three other cells which eventually formed landmine-like germlings after several continuous divisions. The germlings then formed rhizoids and attached onto the bottom of the flask within 12 h of culture. The growth and development of the germlings younger than 20 days were significantly influenced by the culture temperature and light, with the optimal conditions being 21 °C and 40 μmol photons m^?2 s^?1. However, for germlings older than 30 days, the optimal conditions were 24 °C and 60 μmol photons m^?2 s^?1.     

Low and high temperature asymmetric forms of pig kidney and rabbit muscle phosphofructokinases and reversible, temperature-dependent transitions.

Previous viscometric studies from this laboratory (Johnson, C. S., Vogtmann, L., and Deal, W. C., Jr. (1976) Biochem. Biophys. Res. Commun.73, 391–395) have shown that at 3.5 ° C, pig kidney phosphofructokinase (PFK) is markedly asymmetric and rabbit muscle PFK is moderately asymmetric. The present viscometric and ultracentrifugal studies show that both enzymes are also asymmetric at near-physiological temperatures, that both exist in high-temperature and low-temperature forms, and that the high-temperature forms of both are less asymmetric and more dissociated than the low-temperature forms. The risults also show that the transitions from low- to high-temperature forms are reversible if the exposure to 35 °C is short enough that no irreversible chemical modification occurs. For pig kidney PFK, intrinsic viscosity values of 34.0, 25.6, and 13.8 ml/g were obtained at 3.5, 20 and 35 °C, respectively, whereas rabbit muscle PFK yielded values of 6.9, 6.2, and 5.2 ml/g at the corresponding temperatures. These data clearly show a decrease in asymmetry with increase in temperature. However, both enzymes are still asymmetric at the higher temperature, inasmuch as most globular macromolecules have intrinsic viscosity values in the range of 3 to 4 ml/g, regardless of molekular weight. Studies from 1 to 45 ° C at a fixed protein concentration (4.8 mg/ml) showed that pig kidney PFK has reduced viscosity values of 51.0 ml/g (low-temperature form) and 20.4 ml/g (high-temperature form) in plateau regions of the viscosity graph at the temperature extremes; the mid-point of the transition between the two forms is at about 22–24 °C. Rabbit muscle PFK at 4.2 mg/ml reproducibly gave corresponding reduced viscosity values of 6.9 and 4.8 ml/g for the low- and high-temperature forms, respectively; the transition mid-point between the two forms is at about 16 °C. The first reported sedimentation velocity studies of rabbit muscle PFK at near-physiological temperature (35 °C) show that with near-physiological protein concentration (1.25 mg/ml), the enzyme is in a much more dissociated form, s_20,w(weight average) = 14. 5 S; s_20,w(peak leading edge) = 17 S, than that previously reported at lower temperatures, s_20,w(fastest peak) = 23–30 S. Similarly, the first sedimentation studies on the pig kidney enzyme indicate a lower sedimentation coefficient at 35 ° C (s^0.39%_20,w = 48 S) than at 3.5 ° C(65 S).     

Physiological differences in the growth of <Emphasis Type="Italic">Sargassum horneri</Emphasis> between the germling and adult stages

The effects of temperature, irradiance, and daylength on Sargassum horneri growth were examined at the germling and adult stages to discern their physiological differences. Temperature–irradiance (10, 15, 20, 25, 30°C × 20, 40, 80 μmol photons m⁻²s⁻¹) and daylength (8, 12, 16, 24 h) experiments were carried out. The germlings and blades of S. horneri grew over a wide range of temperatures (10–25°C), irradiances (20–80 μmol photons m⁻²s⁻¹), and daylengths (8–24 h). At the optimal growth conditions, the relative growth rates (RGR) of the germlings were 21% day⁻¹ (25°C, 20 μmol photons m⁻²s⁻¹) and 13% day⁻¹ (8 h daylength). In contrast, the RGRs of the blade weights were 4% day⁻¹ (15°C, 20 μmol photons m⁻²s⁻¹) and 5% day⁻¹ (12 h daylength). Negative growth rates were found at 20 μmol photons m⁻²s⁻¹ of 20°C and 25°C treatments after 12 days. This phenomenon coincides with the necrosis of S. horneri blades in field populations. In conclusion, we found physiological differences between S. horneri germlings and adults with respect to daylength and temperature optima. The growth of S. horneri germlings could be enhanced at 25°C, 20 μmol photons m⁻²s⁻¹, and 8 h daylength for construction of Sargassum beds and restoration of barren areas.     

Thermal dependence of clearance and metabolic rates in slow- and fast-growing spats of manila clam Ruditapes philippinarum

Thermal dependence of clearance rate (CR: l h^?1), standard (SMR: J h^?1) and routine metabolic rates (RMR: J h^?1), were analyzed in fast (F)- and slow (S)-growing juveniles of the clam Ruditapes philippinarum. Physiological rates were measured at the maintenance temperature (17 °C), and compared with measurements performed at 10 and 24 °C after 16 h and 14 days to analyze acute and acclimated responses, respectively. Metabolic rates (both RMR and SMR) differed significantly between F and S seeds, irrespective of temperature. Mass-specific CRs were not different for F and S seeds but were significantly higher in F clams for rates standardized according to allometric size-scaling rules. Acute thermal dependency of CR was equal for F and S clams: mean Q ₁₀ were ≈3 and 2 in temperature ranges of 10–17 and 17–24 °C, respectively. CR did not change after 2 weeks of acclimation to temperatures. Acute thermal effects on SMR were similar in both groups (Q ₁₀ ≈ 1 and 1.6 in temperature ranges of 10–17 and 17–24 °C, respectively). Large differences between groups were found in the acute thermal dependence of RMR: Q ₁₀ in F clams (≈1.2 and 1.9 at temperature ranges of 10–17 and 17–24 °C, respectively) were similar to those found for SMR (Q ₁₀ = 1.0 and 1.7). In contrast, RMR of S clams exhibited maximum thermal dependence (Q ₁₀ = 3.1) at 10–17 °C and become depressed at higher temperatures (Q ₁₀ = 0.9 at 17–24 °C). A recovery of RMR in S clams was recorded upon acclimation to 24 °C. Contrasting metabolic patterns between fast and slow growers are interpreted as a consequence of differential thermal sensitivity of the fraction of metabolism associated to food processing and assimilation.     

The in vitro biosynthesis and secretion of glycerol by larval fat bodies of chilled Ostrinia nubilalis

Fat bodies from diapausing fifth-instar larvae of Ostrinia nubilalis were incubated in vitro at 5 or 23°C in Grace's medium and the glycerol contents of the organ and incubation medium determined. Fat bodies from diapausing larvae chilled 3 weeks at 5°C secreted glycerol into the medium at 5°C at a net rate of approx. 0.75 nmol/mg fat body dry wt/h for at least 96 h while the tissue levels remained essentially constant. Depending upon the experiment, from 6 to 15 times more glycerol was produced in 24 h at 5°C by these fat bodies than by those taken from diapausing unchilled larvae and incubated at either 5 or 23°C. A minimal chilling period of 10–12 days was recognized as necessary for chilled larval fat bodies to demonstrate rates of glycerol synthesis greater than those of unchilled larvae and the lag showed a temporal correlation with changes in haemolymph glycerol concentrations. These results suggest that this response to chilling by O. nubilalis is relatively slow. While incubation, at 23°C, of fat bodies from previously chilled larvae did not result in cessation of glycerol secretion, the rate of its appearance in the culture medium decreased during the 24-h incubation period. Although the ability of chilled fifth-instar larvae to accumulate glycerol is not dependent upon the diapause state results show that clearance of glycerol from the haemolymph by rewarmed O. nubilalis is related to diapause intensity.     

Identification of <Emphasis Type="Italic">Porphyra yezoensis</Emphasis> (Rhodophyta) meiosis by DNA quantification using confocal laser scanning microscopy

Conchospore germlings of Porphyra yezoensis were stained with a fluorescent dye for DNA and observed with confocal laser scanning microscopy (CLSM). Relative DNA values of the germling nuclei were obtained by measuring fluorescence intensities of nuclear regions of the optically sliced specimens, using the mean value of the smallest blade cells as a reference of the genomic n value. Such quantification revealed that the nuclear DNA amounts of the one-cell, two-cell, and four-cell-stage germlings are approximately 4 × n, 2 × n, and n ∼2 × n values respectively; these values agreed well with the expected ones from the hypothesis that meiosis corresponds to the first successive cell divisions after the conchospore germination. These results are consistent with a previous study on cytogenetic analysis of the chimaera blade formation (Ohme and Miura 1988, Plant Sci 57:135–140) and not consistent with a recent microscopic study (Wang et al. 2006, Phycol Res 54:201–207) which proposed that the first meiotic division occurs at the conchospore formation and the second division at the germination.     

A new genotype ofNeurospora crassa that selectively produces abundant microconidia in submerged shake culture

A new microcycle microconidiating strain (mcm) ofNeurospora crassa was derived by successive backcrosses of a soil isolate to a laboratory wild-type strain. Surface grown cultures show normal wild-type vegetative morphology. However, under continuous agitation in liquid cultures at 22°C, macroconidial germlings bypass the usual mycelial phase and produce abundant numbers of uninucleate microconidia within 24 h. Temperature and culture media affect the production of microconidia.     

Induction and characterization of pigmentation mutants in Porphyra yezoensis (Bangiales, Rhodophyta)

Porphyra yezoensis Ueda conchospore germlings (1–4-cell stages) were treated with N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) for inducing mutations. Three kinds of color-mutated gametophytic blades, which were composed of the mutated cells wholly, sectorially or spottedly, were obtained; and most of them were sectorially variegated blades. The highest frequency of these mutated blades was 1.3%. Four different pigmentation mutant strains were obtained by regenerating single cells and protoplasts that were enzymatically isolated from the mutated sectors of the sectorially variegated blades. The mutants were relatively stable in color in both gametophytic blade and conchocelis phases. In the two phases, each mutant strain showed characteristic differences in the in vivo absorption spectra, and had different pigment contents of major photosynthetic pigments (chlorophyll a, phycoerythrin and phycocyanin) as compared with the wild-type and with each other. The gametophytic blades from the four mutant lines showed significant differences in growth and photosynthetic rates, when they were cultured in the same conditions. By crossing the mutant with the wild-type, it was found that the color phenotypes of two mutants reported above, were resulted from two mutations in different genes, respectively. This revised version was published online in August 2006 with corrections to the Cover Date.     

Low Root Temperature Retardation of the Mineral Nitrogen Induced Decline in N2Fixation by a Northern Ecotype of White Clover

Nodulated white clover plants (Trifolium repensL.) of a Norwegian ecotype from Pasvik (70°N) were grown in flowing solution culture. Root temperature was 17°C until 51d after sowing, when it was lowered decrementally over 5d to 7°C in four of the eight plant culture units. After a further 24h, mineral N was supplied automatically at 20μMNH₄NO₃in three culture units at each root temperature (7 and 17°C) over 17d. The remaining two units provided control plants solely dependent on N₂fixation at 7 and 17°C.The supply of NH₄NO₃greatly reduced the nodule biomass per plant at 17°C over 17d compared with control plants, but had little effect at 7°C. The nodule decline at 17°C accompanied an acute and progressive decrease in specific rate of N₂fixation, from 9mmolN d^-1g^-1nodule d.wt on day 0 to zero by day 10. Whilst initial rates of N₂fixation were lower at 7°C, the mineral N-induced decrease in fixation rates was also less severe than at 17°C and specific fixation rates recovered after reaching a minimum on day 11. N₂fixation accounted for 36% of the total uptake of N by +min.N plants during the treatment period at 7°C as opposed to only 13% at 17°C. The total N₂fixed at 7°C was 86% of that fixed at 17°C, although the specific growth rate (d.wt) at 7°C was only 55% of that at 17°C. Addition of NH₄NO₃at 7°C had little effect on the gross amount of N₂fixed subsequently. In contrast, total N₂fixation by +min.N plants at 17°C was only 24% of that fixed by the corresponding controls. The possible mechanisms by which mineral N affects N₂fixation are discussed.     

Heat resistance of Clostridium sordellii spores

The thermal destruction kinetics of Clostridium sordellii spores was studied in this research. Decimal reduction times (D values) for C. sordellii ATCC 9714 spores ranged between 175.60 min for D₈₀ (the D value for spore suspensions treated at 80 °C) and 11.22 min for D₉₅. The thermal resistance (Z) and temperature coefficient (Q₁₀) values of spores were calculated to be as high as 12.59 °C and 6.23, respectively. At 95 °C, the relative thermal death rate and relative thermal death time of C. sordellii ATCC 9714 spores were found to be 0.0085/min and 118 min, respectively, indicating that the death rate of spores was 118 times lower at 95 °C than at 121.1 °C. Heat treatments at up to 85 °C for 120 min failed to cause a 100-fold destruction in spore populations of C. sordellii ATCC 9714. By contrast, spore counts were reduced by 2log₁₀ cycles within 73 min and 23 min at 90 °C and 95 °C, respectively. This is the first published report of thermal inactivation of C. sordellii spores; however, further studies are needed to confirm these results in real food samples.     

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 constant and fluctuating temperature on the circadian foraging rhythm of the red imported fire ant,Solenopsis invicta Buren (Hymenoptera: Formicidae)

Understanding circadian foraging rhythms activity of the red imported fire ant, Solenopsis invicta Buren (Hymenoptera: Formicidae) foragers at different temperatures is an important step towards developing control measures in Integrated Pest Management (IPM) programs. In this study, the circadian foraging rhythm activities of S. invicta foragersat different temperature were investigated under laboratory and field conditions. Results indicated that the foraging activity increased after sunrise, and maximum foraging occurred at 14:00 (foraging rate was 69.22 ± 0.57 and 72.58 ± 1.15 foragers/min in the first and second year, respectively) in the tea fields of Guangzhou during autumn. Furthermore, foragers demonstrated circadian rhythms and exhibited a unimodal after 24 h. A significant correlation was found between foraging activity and temperature. S. invicta colonies were active at moderate soil temperatures (approximately 26.65 °C to 29.24 °C). The preferred temperature of the colonies was 26 °C, followed by 22 °C and 18 °C in the laboratory. The individual S. invicta activity was maximum at 17:00 (18.67 ± 1.66 times /10 min) and minimum at 5:00 (8.33 ± 2.51 times/10 min) at 26 °C. The fluctuating temperature had a significant impact on individual locomotor activity (r = 0.8979, P < 0.01) but did not alter the rhythm activity. Our results demonstrated that temperature might play an important role in circadian foraging rhythms activity of S. invicta. These results may have implications for the development of more effective fire ant management strategies.     

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).     

Effects of acute and chronic testicular hyperthermia on levels of testosterone and corticosteroids in plasma of boars

Heat is known to depress spermatogenesis in the boar, but there is little quantitative evidence on its effects on testicular steroidogenesis in this species. The studies reported here examine the effects of short-term and chronic testicular hyperthermia on levels of testosterone (T) and corticosteroids (C) in plasma of Large-White (LW) boars.In examining effects of acute heating, three mature LW boars were maintained at 23°, 35° and 23°C ambient during three consecutive 24-h periods. Blood samples were collected hourly and levels of T and C in plasma determined. Prior to heating, plasma T levels varied diurnally (P<0.05) about a 24-h mean value of 2.78 nM. During heating at 35°C, and recovery at 23°C, mean plasma T levels remained unchanged (P>0.05) but there was a loss of diurnal rhythm. Mean 24-h plasma C levels did not change during heating (20.8 nMat 23°C, 20.2 nMat 35°; P>0.05), but fell (P<0.05) to 8.3 nM during the recovery period at 23°C.Effects of chronic heating on testis function were investigated by determining T and C concentrations in peripheral plasma of unilateral cryptorchid boars in which the scrotal testis was removed shortly after birth. Blood samples were drawn hourly, for 24 h, from each animal at about 10 months of age. The boars were then treated, i.v., with 700 IU hCG and blood samples collected frequently for 12 h. Mean plasma T levels before and after hCG treatment were 1.94 and 3.71 nM respectively, the difference between these levels being significant (P<0.05). At the same time, comparison was made with four normal littermates, hemicastrated at 3 days of age and heated to maintain testis temperature near 38°C. Mean plasma T levels in these boars increased (P<0.05) from 5.90 nM before, to 26.5 nM after hCG treatment, both levels being higher (P<0.05) than corresponding values for the hemicastrate cryptorchid animals. Levels of C in plasma increased (P<0.05) in the heated-scrotal boars following hCG treatment but decreased (P<0.05) in the cryptorchid animals. Histological comparison of testicular tissue from the scrotal and cryptorchid animals in this experiment revealed hypertrophy of Leydig cells in the abdominal testes.It is concluded that acute testicular hyperthermia (to c. 38°C) does not result in significant depression in mean plasma T levels of boars. However, chronic heating of testes at 38°C is associated with lower basal levels of T in peripheral plasma and an impaired response of plasma T concentrations following gonadotrophic stimulation.     

Early development of germlings of <Emphasis Type="Italic">Sargassum thunbergii</Emphasis> (Fucales,Phaeophyta) under laboratory conditions

Morphology and culture studies on germlings of Sargassum thunbergii (Mertens et Roth) Kuntze were carried out under controlled laboratory conditions. Growth characteristics of these germlings grown under different temperatures (from 10 to 25°C), irradiances (from 9 to 88 μmol photons m⁻² s⁻¹), and under blue and white light conditions are described. The development of embryonic germlings follows the classic “8 nuclei 1 egg” type described for Sargassaceae. Fertilized eggs spent 5–6 h developing into multicellular germlings with abundant rhizoids after fertilization. Under conditions of 20°C, 44 μmol photons m⁻² s⁻¹ and photoperiod of 12 h, young germlings with one or two leaflets reached 2–3 mm in length after 8 weeks. Temperature variations (10, 15, 20, 25°C) under 88 μmol photons m⁻² s⁻¹ significantly influenced the growth rate within the first week, although this effect became less obvious after 8 weeks, especially at 15 and 20°C. Variation in germling growth was highly significant under different irradiances (9, 18, 44, 88 μmol photons m⁻² s⁻¹) at 25°C. Low temperature (10°C) reduced germling growth. Growth of germlings cultured under blue light was lower than in white light. Optimal growth of these germlings occurred at 25°C and 44 μmol photons m⁻² s⁻¹.     

Temperature-dependent development of the broad mite Polyphagotarsonemus latus (Acari: Tarsonemidae) on Rhododendron simsii

The broad mite, Polyphagotarsonemus latus (Banks), is one of the major pests causing severe economic damage in Rhododendron simsii Planch hybrid production in Belgium. In order to optimize biological control programs and to parameterize warning programs, we studied the effect of environmental temperature on the development of P. latus on R. simsii leaves. In combination with a photoperiod of 16:8 h (L:D) and a relative humidity of 80 ± 5 %, six constant temperatures (15, 17, 20, 25, 30 and 33 ± 1 °C), were studied. Total developmental times of 13.3, 10.5, 6.6, 4.2, 3.5 and 4.0 days were measured, respective to each of the aforementioned temperatures. Development of females took significantly longer than that of males at 15, 17, 20 and 30 °C. Survival rates observed between 17 and 30 °C varied between 43.5 and 96.9 %. Lower survival rates were found at 15 and 33 °C, i.e. 31.8 and 23.6 %, respectively. The lower, optimal and upper developmental threshold (t _min , t _opt and t _max , respectively) and thermal constant (K) of the pest were estimated for each life stage by a linear and two non-linear models. Based on measurements of total development of P. latus thermal thresholds of 10.0, 30.1 and 36.0 °C were calculated for t _min , t _opt and t _max , respectively. The number of degree-days needed to complete immature development when feeding on R. simsii was 66.7.     

Bioremediation potential of Chondrus crispus (Basin Head) and Palmaria palmata: effect of temperature and high nitrate on nutrient removal

To evaluate the nutrient removal capabilities of two red macroalgae, apical blades were cultured in the lab for 4?weeks at either 6, 10, or 17°C and nitrate at either 30 or 300?μM, typical of the seasonal range of conditions at a land-based Atlantic halibut farm. Stocking density was 2.0?g?L^?1, irradiance 125?μmol?photons?m^?2?s^?1, photoperiod 16:8 (L:D), and nitrogen to phosphorus ratio 10:1. For both species, the highest growth rate was at 300?μM NO ₃ ^? with Palmaria palmata growing fastest at 6°C, 5.8%?day^?1, and Chondrus crispus growing best at 17°C, 5.5%?day^?1. Nitrogen and carbon removal by P. palmata was inversely related to temperature, the highest rate at 6°C and 300?μM NO ₃ ^? of 0.47?mg N and 6.3?mg C per gram dry weight per day. In contrast, C. crispus removal of N was independent of temperature, with mean removal of 0.49?mgN?gDW^?1?day^?1 at 300?μM NO ₃ ^? . The highest carbon removal by C. crispus was 4.4?mgC?gDW^?1?day^?1 at 10°C and 300?μM nitrate, though not significantly different from either 6 or 17°C and 300?μM nitrate. Tissue carbon:nitrogen ratios were >20 in both species at 30?μM nitrate, and all temperatures indicating nitrogen limitation in these treatments. Phycoerythrin content of P. palmata was independent of temperature, with means of 23.6?mg?gFW^?1 at 300?μM nitrate. In C. crispus, phycoerythrin was different only between 6°C and 17°C at 300?μM nitrate, with the highest phycoerythrin content of 12.6?mg?gFW^?1 at 17°C. Morphological changes were observed in P. palmata at high NO ₃ ^? concentration as curling of the fronds, whilst C. crispus exhibited the formation of bladelets as an effect of high temperature.