Effects of frequent fish predation on corals in Hawaii

The abundance of lesions from fish bites on corals was quantified at nine shallow reefs in the main Hawaiian Islands. There were on average 117 bite scars m⁻² on Pocillopora meandrina tissue from the barred filefish Cantherhines dumerilii, 69 bites m⁻² on Porites compressa tissue, and 4 bites m⁻² on Porites lobata tissue from the spotted puffer Arothron meleagris. Across sites, the frequency of A. meleagris bites on P. compressa per unit area of living coral cover declined exponentially with increasing coral cover. P. compressa nubbins in two size classes (1–2 cm and 4–5 cm) were transplanted onto six study reefs. Nubbins in the small size class were entirely removed by bites from A. meleagris, while nubbins ≥4 cm were only partially consumed, leaving them able to recover. At sites with abundant P. compressa, predation had little effect on transplanted nubbins; at sites where P. compressa comprised less than 5% of living cover, all nubbins were preyed upon. A. meleagris bite lesions on P. compressa were monitored through time and fully recovered in 42 ± 4 days. A model of the risk of over-predation (a second predation event before the first is healed) decreased exponentially with increasing coral cover and increased linearly with increasing lesion healing time. The increased risk of over-predation at low coral cover could indicate an Allee effect limiting the recovery of coral populations if coral cover is substantially reduced by natural or anthropogenic disturbances.     

Fish corallivory on a pocilloporid reef and experimental coral responses to predation

This study examined the effects of the Guineafowl pufferfish (Arothron meleagris), a major corallivore in the Eastern Pacific, on pocilloporid corals on a reef at Gorgona Island, Colombia. Pufferfish occurred at a density of 171.2 individuals ha^?1 and fed at a rate of 1.8 bites min^?1, which produced a standing bite density of 366.2 bites m^?2. We estimate that approximately 15.6 % of the annual pocilloporid carbonate production is removed by the pufferfish population. Examination of the predation effect on individual pocilloporid colonies revealed that although nubbins exposed to corallivory had lower linear growth, they gained similar weight and became thicker than those protected from it. Additionally, colonies with simulated predation injuries (on up to 75 % of branch tips) healed successfully and maintained growth rates similar to those of uninjured colonies. Despite the high corallivore pressure exerted by pufferfish on this reef, we conclude that they have a low destructive impact on Pocillopora colonies as corals can maintain their carbonate production rate while effectively recovering from partial predation. Due to its influence on colony morphology, pufferfish predation may increase environmentally induced morphological variability in Pocillopora.     

Fast Growth May Impair Regeneration Capacity in the Branching Coral Acropora muricata

Regeneration of artificially induced lesions was monitored in nubbins of the branching coral Acropora muricata at two reef-flat sites representing contrasting environments at Réunion Island (21°07′S, 55°32′E). Growth of these injured nubbins was examined in parallel, and compared to controls. Biochemical compositions of the holobiont and the zooxanthellae density were determined at the onset of the experiment, and the photosynthetic efficiency (F_v/F_m) of zooxanthellae was monitored during the experiment. Acropora muricata rapidly regenerated small lesions, but regeneration rates significantly differed between sites. At the sheltered site characterized by high temperatures, temperature variations, and irradiance levels, regeneration took 192 days on average. At the exposed site, characterized by steadier temperatures and lower irradiation, nubbins demonstrated fast lesion repair (81 days), slower growth, lower zooxanthellae density, chlorophyll a concentration and lipid content than at the former site. A trade-off between growth and regeneration rates was evident here. High growth rates seem to impair regeneration capacity. We show that environmental conditions conducive to high zooxanthellae densities in corals are related to fast skeletal growth but also to reduced lesion regeneration rates. We hypothesize that a lowered regenerative capacity may be related to limited availability of energetic and cellular resources, consequences of coral holobionts operating at high levels of photosynthesis and associated growth.     

Crown-of-thorns starfish predation and physical injuries promote brown band disease on corals

Brown band (BrB) disease manifests on corals as a ciliate-dominated lesion that typically progresses rapidly causing extensive mortality, but it is unclear whether the dominant ciliate Porpostoma guamense is a primary or an opportunistic pathogen, the latter taking advantage of compromised coral tissue or depressed host resistance. In this study, manipulative aquarium-based experiments were used to investigate the role of P. guamense as a pathogen when inoculated onto fragments of the coral Acropora hyacinthus that were either healthy, preyed on by Acanthaster planci (crown-of-thorns starfish; COTS), or experimentally injured. Following ciliate inoculation, BrB lesions developed on all of COTS-predated fragments (n = 9 fragments) and progressed up to 4.6 ± 0.3 cm d^?1, resulting in ~70 % of coral tissue loss after 4 d. Similarly, BrB lesions developed rapidly on experimentally injured corals and ~38 % of coral tissue area was lost 60 h after inoculation. In contrast, no BrB lesions were observed on healthy corals following experimental inoculations. A choice experiment demonstrated that ciliates are strongly attracted to physically injured corals, with over 55 % of inoculated ciliates migrating to injured corals and forming distinct lesions, whereas ciliates did not migrate to healthy corals. Our results indicate that ciliates characteristic of BrB disease are opportunistic pathogens that rapidly migrate to and colonise compromised coral tissue, leading to rapid coral mortality, particularly following predation or injury. Predicted increases in tropical storms, cyclones, and COTS outbreaks are likely to increase the incidence of coral injury in the near future, promoting BrB disease and further contributing to declines in coral cover.     

Impact of worker longevity and other endogenous factors on colony size in the fire ant, <Emphasis Type="Italic">Solenopsis invicta</Emphasis>

Central to the survival and reproduction of social insect queens is the size of colonies at maturity. The influence of exogenous factors such as predation, food abundance, and seasonal changes in temperature on colony size are well studied. Less well studied are endogenous life-history factors such as a queen’s fertility and lifespan, duration of worker development from egg to adult and worker lifespan. Endogenous factors regulating the rate of colony growth and colony size were simulated using the fire ant, Solenopsis invicta. Assuming ideal environmental conditions of no predation, abundant food and uniform temperature, the simulation showed unequivocally that colony size is determined by two endogenous factors: a queen’s egg-laying rate (R _q) and worker longevity (L _w) (Colony size = R _q × L _w). Thus, we are left with an unanswered question: if worker longevity contributes directly to colony size, why is the lifespan of workers so short—in most cases, a small fraction of a queen’s lifespan?     

Cymo melanodactylus crabs slow progression of white syndrome lesions on corals

Predation on coral tissue by the crab Cymo melanodactylus has been hypothesized to contribute to tissue loss caused by white syndromes (WS) in acroporid corals. Here, we demonstrate that transplanting C. melanodactylus crabs from WS-infected Acropora colonies onto healthy coral fragments in controlled aquarium experiments does not result in WS transmission over a 21-day experimental period. Furthermore, progression of WS lesions was three times more rapid on corals with all C. melanodactylus crabs removed than on those with crabs (2.28 ± 0.21 vs. 0.74 ± 0.22 cm/day, respectively); thus, crabs slow WS disease progression under experimental conditions. In choice experiments, C. melanodactylus crabs were strongly attracted to corals with WS lesions, with 87 % of crabs migrating to WS fragments versus 3 % to healthy fragments. The strong attraction of C. melanodactylus to WS-infected corals and their ability to significantly reduce lesion progression rates suggest a mechanism whereby these coral-dwelling crabs could mitigate the effects of WS diseases on reefs.     

An efficient,widely applicable cryopreservation of Lilium shoot tips by droplet vitrification

We report a straightforward and widely applicable cryopreservation method for Lilium shoot tips. This method uses adventitious shoots that were induced from leaf segments cultured for 4 weeks on a shoot regeneration medium containing 1 mg/l α-naphthaleneacetic acid and 0.5 mg/l thidiazuron. Shoot tips (1.5–2 mm in length) including 2–3 leaf primordia were precultured on Murashige and Skoog (MS; 1962) medium with 0.5 M sucrose for 1 day and then treated with a loading solution containing 0.4 M sucrose and 2 M glycerol for 20 min, followed by a Plant Vitrification Solution 2 (PVS2) treatment for 4 h at 0 °C. Dehydrated shoot tips were transferred onto 2.5 µl PVS2 droplets on aluminum foil strips, prior to a direct immersion into liquid nitrogen for 1 h. Frozen shoot tips were re-warmed in MS medium containing 1.2 M sucrose for 20 min at room temperature, followed by post-thaw culture for shoot regrowth. Shoot regrowth levels ranged from 42.5 % for L. longiflorum × Oriental ‘Triumphator’ to 87.5 % for L. Oriental hybrid ‘Siberia’, with a mean shoot regrowth level of 67.1 % across the six diverse Lilium genotypes tested. Histological observations found that the survival patterns were similar in cryopreserved shoot tips of ‘Triumphator’ and ‘Siberia’. Assessments using inter-simple sequence repeat markers found no differences in regenerants recovered from the control stock cultures and from cryopreserved shoot tips in ‘Triumphator’ and ‘Siberia’. This Lilium droplet-vitrification cryopreservation method is efficient, simple and widely applicable for the long-term conservation of lily genetic resources.     

Food choice,feeding rates,and the turnover of macrophyte biomass by a surf-zone inhabiting amphipod

The amphipod Allorchestes compressa Dana inhabits large accumulations of detached macrophytes in the surf-zone of sandy beaches in southern Western Australia. A. compressa is most abundant on branching red algae and least abundant on intact thalli of the kelp Ecklonia radiata (Turn.) J. Agardh., yet the major component of the gut contents is brown algae (probably E. radiata) and decomposing E. radiata ranked first in laboratory food preference experiments. Observations on the feeding behaviour of Allorchestescompressa indicated that the amphipods obtain their food by feeding on small pieces (< 3 cm) of macrophyte tissue trapped within the highly branched algae, or amphipods may move with and feed on the plant particles as they are swept around in the surf. In a particle selection experiment, using plant particles 1–3 mm sieved from the surf, A. compressa selected particles of Ecklonia radiata, leached Ulva sp., Sargassum spp., and seagrass leaves but avoided branching red algae. The influence of potential foods on the darwinian fitness of Allorchestes compressa was assessed on the basis of adult survival, the percentage of females which carried eggs, growth rates, and time to maturity measured in laboratory rearing experiments. Fitness increased in the order red algae → intact seagrass leaves → mixed particles (1–3 mm) sieved from the surf → Eckloniaradiata tissue. Given the constraints of fish predation and the fluctuating supply of E. radiata, amphipods in the surf consume close to their theoretically optimum diet by feeding mainly on E. radiata from amongst the available particles of different macrophytes. Estimates of the significance of the Allorchestes compressa population in the turnover of Ecklonia radiata biomass in the surf-zone (estimated as g Ecklonia consumed per g Ecklonia per day) showed that amphipods could turnover E. radiata biomass twice per month in summer and once every 1 to 2 months during spring and autumn. These rates are comparable with those measured for the physical breakdown and microbial decomposition of E. radiata and, except during winter, grazing by Allorchestes compressa must, therefore, be considered an important process during the remineralization of nutrients tied up in kelp biomass in the surf-zone.     

Detachment of Porites cylindrica nubbins by herbivorous fishes

A form of active restoration for coral assemblages involves culturing coral nubbins at nursery sites before transplantation to recipient reefs. Incidental grazing and/or directed predation by local fish assemblages are major sources of dislodgement and mortality for coral nubbins in nurseries. However, the rate of coral nubbin detachment, how this varies across fish taxa, and whether nubbin size affects rates of detachment warrant further investigation. We used field and aquaria experiments to examine the effect of incidental grazing and predation on the detachment of Porites cylindrica nubbins of different sizes (0.5, 1, 2, 3, 4, and 5 cm height). Short‐term (6 hours) exposure of nubbins to local fish assemblages at Lucero Reef, northwestern Philippines, caused higher detachment (1.93% ± 0.53 SE) compared to caged controls (0.16% ± 0.16 SE), with no detectable effect of nubbin size. To identify the impact of individual fish species, nubbins were exposed to one of four locally abundant herbivorous and corallivorous fish species in aquaria for 8 hours. Nubbin detachment was greater when exposed to Chlorurus spilurus (1.20–36.2%) and Siganus fuscescens (0.00–15.0%) than Chaetodon lunulatus (0.00–4.00%) and Chaetodon kleinii (0.00–1.20%), with the smallest nubbins (0.5 cm) being the most vulnerable. Our results suggest that incidental grazing by herbivorous fishes, especially parrotfishes, may potentially be an important source of detachment and likely mortality of nubbins. Optimizing coral nursery protocols should consider potential trade‐offs between excluding grazing fishes and the accumulation of algal material on caging structures to minimize nubbin mortality and improve coral restoration success.     

Genetic transformation and regeneration of transgenic plants from protocorm-like bodies of vanilla (Vanilla planifolia Andrews) using Agrobacterium tumefaciens

An efficient transformation protocol was developed for vanilla (Vanilla planifolia) using protocorm-like bodies (PLBs) derived from shoot tips as explants. Of the ten media tested, Murashige and Skoog (MS) medium containing 0.45 μM thidiazuron (TDZ) produced maximum PLBs per shoot tip. Genetic fidelity of PLB-derived plantlets was confirmed by random amplified polymorphic DNA (RAPD) using 23 random primers. PLBs were co-cultured with Agrobacterium tumefaciens strain EHA105 harbouring the binary vector pBI121 containing the β-glucuronidase (gusA) and neomycin phosphotransferase II (npt II) genes for 3 days in MS medium supplemented with acetosyringone and transferred to selective regeneration medium containing 4.43 μM benzyladenine (BA), 2.68 μM naphthalene acetic acid (NAA) supplemented with 50 mg l^?1kanamycin and 250 mg l^?1 cefotaxime. After 15 days of culture, the surviving explants were transferred to the same regeneration medium but with a higher concentration of kanamycin (75 mg l^?1). Finally, explants surviving after 30 days were subjected to more stringent selection in the regeneration medium supplemented with 100 mg l^?1 kanamycin. Strong β glucuronidase activity was detected in the transformed plantlets by histochemical assay. Integration of T-DNA into the nuclear genome of transgenic plants was confirmed by polymerase chain reaction and Southern hybridization, while expression of transgene was confirmed by northern hybridization. This protocol allows effective and high frequency transformation of vanilla.     

Growth and survival of coral transplants with and without electrochemical deposition of CaCO3

This study aims to investigate experimentally the effect of electrochemical deposition of CaCO₃ on linear and girth growth, survival and skeletal structure of Porites cylindrica Dana. Transplanted coral nubbins were subjected to up to 18 V and 4.16 A of direct current underwater to induce the precipitation of dissolved minerals. Naturally growing colonies showed a significant increase in percentage longitudinal growth over the treated and untreated corals. Survival followed a similar trend as the growth rate. Lowest survival rates were found in the untreated nubbins. Phenotypic alterations were observed in the treated nubbins where the basal corallites decreased in size with a concomitant increase in their number per unit area. This was probably due to increased mineral concentration (such as Ca²⁺, Na⁻, Mg²⁺, CO₃²⁻, Cl⁻, OH⁻ and HCO₃⁻) at the basal region of the nubbins. These alterations were accompanied by a significant increase in girth growth rates of the treated nubbins at their basal regions. The abundance of mineral ions at the basal region thus appeared to be utilized by the numerous small polyps for a lateral increase in size of the nubbins instead of a longitudinal increase.     

Regulation of growth and cell fate during tissue regeneration by the two SWI/SNF chromatin-remodeling complexes of Drosophila

To regenerate, damaged tissue must heal the wound, regrow to the proper size, replace the correct cell types, and return to the normal gene-expression program. However, the mechanisms that temporally and spatially control the activation or repression of important genes during regeneration are not fully understood. To determine the role that chromatin modifiers play in regulating gene expression after tissue damage, we induced ablation in Drosophila melanogaster imaginal wing discs, and screened for chromatin regulators that are required for epithelial tissue regeneration. Here, we show that many of these genes are indeed important for promoting or constraining regeneration. Specifically, the two SWI/SNF chromatin-remodeling complexes play distinct roles in regulating different aspects of regeneration. The PBAP complex regulates regenerative growth and developmental timing, and is required for the expression of JNK signaling targets and the growth promoter Myc. By contrast, the BAP complex ensures correct patterning and cell fate by stabilizing the expression of the posterior gene engrailed. Thus, both SWI/SNF complexes are essential for proper gene expression during tissue regeneration, but they play distinct roles in regulating growth and cell fate.     

Fishing-induced changes in predation pressure by perch (<Emphasis Type="Italic">Perca fluviatilis</Emphasis>) regulate littoral benthic macroinvertebrate biomass,density, and community structure

We aimed to study whether the varying changes in predation pressure by perch (Perca fluviatilis) reflect the biomass, density, and community structure of the benthic macroinvertebrates. Prey preference is size-dependent, and overall predation pressure is density dependent, and thus the size structure of the P. fluviatilis population should affect the structure of the macroinvertebrate community, and the population density of P. fluviatilis should reflect the overall density of benthic macroinvertebrates. We sampled the littoral benthic community in a boreal lake that had been divided into two parts that were subjected to two different fishing procedures during 2007–2012 period and analyzed the macroinvertebrate diet of fish. The benthic macroinvertebrate community reflected the predation pressure. Total macroinvertebrate biomass increased during the study period in the lake division with a non-size-selective fishing procedure (NSF), i.e., all invertivorous perch size-classes targeted, but decreased in the section with negatively size-selective fishing procedure (SSF), i.e., large invertivorous individuals ≥ 16 cm were not targeted. This difference was a result of the increase in large-sized species, such as Odonata, for the NSF procedure and decrease in the SSF procedure. In contrast to total biomass, total macroinvertebrate density did not show a response to predator size structure but rather total macroinvertebrate density decreased with increasing fish density. The study demonstrates the effect of predation pressure of P. fluviatilis on benthic communities, thus highlighting the keystone predator role of the species in boreal lakes and gives more insight on the multiple effects of fish predation on littoral benthic communities.     

澄黄滨珊瑚、大管孔珊瑚和丛生盔形珊瑚排卵前后小穗生长特征

澄黄滨珊瑚、大管孔珊瑚和丛生盔形珊瑚排卵前后分别采集珊瑚小穗,在实验室条件下进行为期60 d的养殖,观察其生长特性,结果表明:3种珊瑚排卵前后骨骼密度变化在1.541—2.137 g/cm3之间,差异不显著。3种珊瑚小穗的生长率表现出相对一致的变化趋势,同一规格珊瑚小穗排卵前期生长率明显高于排卵后期;同一时期大规格珊瑚小穗生长率明显高于小规格珊瑚小穗,而且养殖中后期生长较快,养殖前期生长较慢,差异显著(P0.05)。澄黄滨珊瑚小穗边缘组织延伸度排卵后期大于排卵前期,大管孔珊瑚小穗边缘组织延伸度排卵前期大于排卵后期,以上两种珊瑚的小规格珊瑚小穗与大规格珊瑚小穗组织延伸度相当。随着养殖时间的持续,丛生盔形珊瑚小穗螅体增殖速率加快,各养殖阶段螅体数差异显著(P0.05),珊瑚小穗规格和养殖季节对其小穗螅体增殖数量没有显著影响。3种珊瑚小穗生长指标间多呈显著正相关,仅大管孔珊瑚小穗初始直径、初始重量与组织延伸度间,以及丛生盔形珊瑚小穗初始重量与初始螅体数量、生长率间相关性不明显。     

Construction of an RNAi expression vector and transformation into Penicillium chrysogenum

In this work, we constructed an RNAi vector for attenuation of the class III chitin synthase gene chs4, which plays a major role in hyphal growth and conidia formation. To achieve a high transformation frequency, factors affecting the preparation and regeneration of protoplasts were analyzed. The maximum numbers of protoplasts (1.41?×?10⁷ mL^?1) were released when mycelia cultured for 48 h were incubated at 30 °C for 5 h in a buffer containing 4 mg mL^?1 lysing enzyme. The maximum regeneration rate (33 %) was obtained when mycelia were digested for 4 h and plated on a regeneration medium containing 1 % overlaid agar. Quantitative real-time PCR was performed to validate the transformation efficiency, and it revealed knockdown of chs4 gene in randomly selected transformants at different levels. Dramatic reductions in the formation of conidia and the hyphal growth rate were observed in most of the transformants.     

Determinant factors in the seedling establishment of Pasania edulis (Makino) Makino

Pasania edulis (Makino) Makino is one of the dominant Fagucea tree species in evergreen broad-leaved forests in southern Japan, and its regeneration success may have a major impact on the dynamics of evergreen broad-leaved forests. We conducted a field survey on the population process from acorn production to seedling establishment of P. edulis in an evergreen broad-leaved forest in Kagoshima, southern Japan, from 1995 to 2009. The acorn crop varied greatly among the 14 cohorts, with mast cropping being recorded every 3–4 years. The mortality rate of acorns was very high for all 14 cohorts (99.3–100 %). Important mortality factors were failure to mature (empty acorns), attack by Curculio weevil on trees, predation of dropped acorns by Apodemus mice and large or medium-sized mammals (wild boar (Sus scrofa leucomystax), badger (Meles meles anakuma), and raccoon dog (Nyctereutes procyonoides viverrinu)), and attacks on germinated acorns by the acorn borer (Coccotrypes graniceps). Among these factors, predation by Apodemus mice was the greatest contributor to annual fluctuations in total mortality until seedling establishment. Large or medium-sized mammals and the acorn borer also caused severe damage to dropped acorns in some years, but contributed little to annual fluctuations in total mortality. For successful regeneration, mast cropping was essential. However, a small population of Apodemus mice, that is, a low predation pressure, was also required during mast years.     

Agrobacterium-mediated transformation of embryogenic cell suspension cultures and plant regeneration in Lilium tenuifolium oriental × trumpet ‘Robina’

A method has been developed for embryogenic cell suspension cultures, plant regeneration and transformation of the important ornamental lily genotype (Lilium tenuifolium oriental × trumpet ‘Robina’). Bulb scales, filaments, ovaries and stem axis tissues were used as explants for callus induction in Murashige and Skoog (MS) medium with additions of growth regulators: picloram on its own, or in combination with 1-naphthaleneacetic acid (NAA), and thidiazuron (TDZ). The results show that the optimum medium for callus induction in bulb scale and filament tissue is MS + picloram 1.0 mg L^?1, and for the ovary, it is MS + picloram 1.5 mg L^?1. The stem axis had the highest rate (89.2 %) of callus induction with MS + NAA 2.2 mg L^?1 + TDZ 0.1 mg L^?1. The suspension cultures were established with the combination of NAA and TDZ with 2–5 mm cell clusters. These took a long time compared with suspension cultures established by picloram with 1–3 mm cell clusters. In three suspension cultures induced by picloram, the best callus from the point of view of proliferation and regeneration was derived from filaments. For plant regeneration, the growth rate of suspension cultures from the stem axis was higher than from the other three suspension culture induced by picloram. Vector pCAMBIA1301 with the β-glucuronidase (GUS) gene as reporter was transformed by Agrobacterium mediation into suspension cultures initiated from filament and stem axis material. After co-cultivation, the numbers of blue spots in material from the two sources were 26.8 ± 4.3 and 24.0 ± 4.7, respectively (difference not significant). Hygromycin-resistant callus was successfully regenerated into plantlets on plant growth regulator-free MS medium. Transgenic plants were also confirmed by the GUS histochemical assay, polymerase chain reaction.     

Effects of Toxic Compounds in Montipora capitata on Exogenous and Endogenous Zooxanthellae Performance and Fertilization Success

Studies have identified chemicals within the stony coral genus Montipora that have significant biological activities. For example, Montiporic acids A and B and other compounds have been isolated from the adult tissue and eggs of Montipora spp. and have displayed antimicrobial activity and cytotoxicity in cultured cells. The ecological role of these toxic compounds is currently unclear. This study examines the role these toxins play in reproduction. Toxins were found in the eggs and larvae of the coral Montipora capitata. Releasing these toxins by crushing both the eggs and larvae resulted in irreversible inhibition of photosynthesis in endogenous and exogenous zooxanthellae within minutes. Moreover, these toxins were stable, as frozen storage of eggs and larvae did not affect toxicity. Photosynthetic competency of Porites compressa zooxanthellae treated with either frozen or fresh, crushed eggs was inhibited similarly (P > 0.05, ANCOVA). Addition of toxic eggs plugs to live P. compressa fragments caused complete tissue necrosis under the exposed area on the fragments within 1 week. Small volumes of M. capitata crushed eggs added to sperm suspensions reduced in vitro fertilization success by killing the sperm. After 30 min, untreated sperm maintained 90 ± 1.9% SEM motility while those treated with crushed eggs were rendered immotile, 4 ± 1.4% SEM. Flow cytometry indicated membrane disruption of the immotile sperm. Fertilization success using untreated sperm was 79 ± 4% SEM, whereas the success rate dropped significantly after exposure to the crushed eggs, 1.3 ± 0% SEM. Unlike the eggs and the larvae, M. capitata sperm did not reduce the photosynthetic competency of P. compressa zooxanthellae, suggesting the sperm was nontoxic. The identity of the toxins, cellular mechanism of action, advantage of the toxins for M. capitata and their role on the reef are still unknown.     

Axonal Regeneration and Remyelination Evaluation of Chitosan/Gelatin-Based Nerve Guide Combined with Transforming Growth Factor-β1 and Schwann Cells

Despite efforts in peripheral nerve injury and regeneration, it is difficult to achieve a functional recovery following extended peripheral nerve lesions. Even if artificial nerve conduit, cell components and growth factors can enhance nerve regeneration, integration in peripheral nerve repair and regeneration remains yet to be explored. For this study, we used chitosan/gelatin nerve graft constructed with collagenous matrices as a vehicle for Schwann cells and transforming growth factor-β1 to bridge a 10-mm gap of the sciatic nerve and explored the feasibility of improving regeneration and reinnervation in rats. The nerve regeneration was assessed with functional recovery, electrophysiological test, retrograde labeling, and immunohistochemistry analysis during the post-operative period of 16 weeks. The results showed that the internal sides of the conduits were compact enough to prevent the connective tissues from ingrowth. Nerve conduction velocity, average regenerated myelin area, and myelinated axon count were similar to those treated with autograft (p > 0.05) but significantly higher than those bridged with chitosan/gelatin nerve graft alone (p < 0.05). Evidences from retrograde labeling and immunohistochemistry analysis are further provided in support of improving axonal regeneration and remyelination. A designed graft incorporating all of the tissue-engineering strategies for peripheral nerve regeneration may provide great progress in tissue engineering for nerve repair.     

A gastropod’s induced behavioral and morphological responses to invasive Carcinus maenas in Australia indicate a lack of novelty advantage

Evolution has afforded many organisms the capacity to recognize predation threats and respond accordingly with behavioral and morphological defenses. Biological invasions may obviate these coevolved recognition systems resulting in biological interactions with native species that range from novelty advantages to disadvantages for the introduced species. Predator recognition initiates responses that can affect other community members through trait-mediated indirect interactions. In this study we use the Australian invasion of a marine, predatory crab (Carcinus maenas) to determine if populations of a native whelk (Haustrum vinosum) with different histories of Carcinus invasion (no previous exposure, 20 years of exposure and 100 years of exposure) recognize and respond to the introduced crab. Haustrum were subsampled from invaded and uninvaded populations then monitored for foraging behavior, shell growth and tissue growth while maintained in a common garden setting with and without waterborne cues from Carcinus. We found that both invaded and uninvaded populations of Haustrum recognize and respond to Carcinus by reducing shell growth and foraging. In feeding experiments, Carcinus showed a preference for small whelks but not thin-shelled whelks. Our results suggest that introduced populations of Carcinus in Australia do not benefit from a novelty advantage and that the induced morphological changes in Haustrum are not a defense, per se. Haustrum’s induced behavioral response to Carcinus may be more important in reducing predation than morphological defenses, and further propagate the invasive crab’s impacts.