Your search keyword '"Copepod"' showing total 11,260 results

1. Seasonally variable thermal performance curves prevent adverse effects of heatwaves.

Author

Sasaki, Matthew, Finiguerra, Michael, and Dam, Hans G.

Subjects

*HEAT waves (Meteorology), *ACARTIA, *PSYCHOLOGICAL stress, *CLIMATE change, *SEASONS

Abstract

1. Differential vulnerability to heatwaves may affect community dynamics in a changing climate. In temperate regions, this vulnerability to heatwaves depends on the interactions between seasonal temperature fluctuations and the capacity to rapidly shift thermal performance curves.2. Here we investigate how these dynamics affect the vulnerability of two ecologically important copepod congeners, Acartia tonsa and A. hudsonica, to heatwaves of different durations. Using a combination of field observations and simulated laboratory heatwave experiments, we uncover strong seasonal variation in the performance curves of A. tonsa but not A. hudsonica. This translated to species‐specific seasonal patterns of vulnerability to heatwaves, with increased vulnerability in A. hudsonica.3. By reducing parental stress during simulated heatwaves, seasonal performance curve shifts likely reduced indirect, transgenerational effects of these events on offspring performance in A. tonsa.4. Our results illustrate how different levels of seasonal variation in thermal performance curves will affect population persistence in a changing climate [ABSTRACT FROM AUTHOR]

Published

2024

2. Ups and downs: copepods reverse the near-body flow to cruise in the water column.

Author

Tack, Nils B., Oliveira Santos, Sara, Gemmell, Brad J., and Wilhelmus, Monica M.

Abstract

Copepods are negatively buoyant organisms actively participating in large-scale vertical migrations as primary consumers in marine ecosystems. As such, these organisms need to overcome their own weight to swim upwards, incurring extra energy costs that are not offset by any mechanism intrinsic to drag-based propulsion. While copepod vertical migrations are well documented, it is still unclear how they achieve extensive upward cruising despite this limitation. In this study, we found suction to be a compensatory mechanism enhancing thrust in upward-swimming copepods. Using experimentally derived velocity and pressure fields, we observed that copepods pull water in front of them to generate sub-ambient pressure gradients when cruising upward, thereby inducing an upstream suction force to complement the thrust produced by the legs. Contrary to expectations that drag always dominates the leg recovery phase, we found that the upstream suction generates net thrust for about a third of the recovery stroke. In contrast, downward-swimming copepods push rather than pull on water and do not benefit from thrust-enhancing suction effects during the recovery stroke. Differences in the induced flows are associated with contrasting leg kinematics, indicating a response to the body orientation rather than a fixed effect. These results offer insights into an important swimming mechanism that can inform the role mesozooplankton play in biogenic hydrodynamic transport and its impact on marine biogeochemistry. [ABSTRACT FROM AUTHOR]

Published

2024

3. Heritable intraspecific variation among prey in size and movement interact to shape predation risk and potential natural selection.

Author

Coblentz, Kyle E., Yang, Liuqingqing, Dalal, Arpita, Incarnato, Miyauna M. N., Thilakarathne, Dinelka D., Shaw, Cameron, Wilson, Ryan, Biagioli, Francis, Montooth, Kristi L., and DeLong, John P.

Subjects

*BODY size, *QUANTITATIVE genetics, *GENETIC correlations, *NATURAL selection, *PREDATION, *PARAMECIUM, *HERITABILITY

Abstract

Predator and prey traits are important determinants of the outcomes of trophic interactions. In turn, the outcomes of trophic interactions shape predator and prey trait evolution. How species' traits respond to selection from trophic interactions depends crucially on whether and how heritable species' traits are and their genetic correlations. Of the many traits influencing the outcomes of trophic interactions, body size and movement traits have emerged as key traits. Yet, how these traits shape and are shaped by trophic interactions is unclear, as few studies have simultaneously measured the impacts of these traits on the outcomes of trophic interactions, their heritability, and their correlations within the same system.We used outcrossed lines of the ciliate protist Paramecium caudatum from natural populations to examine variation in morphology and movement behaviour, the heritability of that variation, and its effects on Paramecium susceptibility to predation by the copepod Macrocyclops albidus.We found that the Paramecium lines exhibited heritable variation in body size and movement traits. In contrast to expectations from allometric relationships, body size and movement speed showed little covariance among clonal lines. The proportion of Paramecium consumed by copepods was positively associated with Paramecium body size and velocity but with an interaction such that greater velocities led to greater predation risk for large body‐sized paramecia but did not alter predation risk for smaller paramecia. The proportion of paramecia consumed was not related to copepod body size. These patterns of predation risk and heritable trait variation in paramecia suggest that copepod predation may act as a selective force operating independently on movement and body size and generating the strongest selection against large, high‐velocity paramecia.Our results illustrate how ecology and genetics can shape potential natural selection on prey traits through the outcomes of trophic interactions. Further simultaneous measures of predation outcomes, traits, and their quantitative genetics will provide insights into the evolutionary ecology of species interactions and their eco‐evolutionary consequences. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

4. Modulation of fatty acid profiles and turnover dynamics in jellyfish polyps through copepod diets: Insights into trophic interactions and nutrient flux.

Author

Chi, Xupeng, Zhang, Fang, and Sun, Song

Subjects

*FOOD composition, *FOOD chains, *FOOD quality, *FATTY acids, *JELLYFISHES, *ARACHIDONIC acid

Abstract

Fatty acids (FAs) are vital biomolecules crucial for determining food quality for higher trophic levels. To investigate FA transfer and turnover time in predators, we conducted a diet switch experiment using jellyfish polyps. These polyps were fed food sources including Artemia sinica nauplii and FA‐manipulated copepod Pseudodiaptomus annandalei, maintained on distinct algal diets with varied FA compositions. Our findings reveal that copepods may have a strong potential to synthesize long‐chain polyunsaturated FA to maintain biochemical homeostasis when consuming low‐quality food. Consequently, the species‐specific fatty acid composition within plankton, combined with effects of seasonal environmental fluctuations and climate change, leads to changes in the FA composition of foundational food web components. These alterations create a complex "nutrient black box" effect as they propagate up trophic levels. Our study shows that jellyfish polyps fail to accumulate EPA and DHA but display high levels of ARA compared to their zooplankton and phytoplankton food sources, suggesting a potential association with dietary EPA and DHA through an unidentified pathway. Certain FA components indicate variations in the turnover time when polyps undergo a dietary shift. Understanding the trajectory of FA metabolism across the "phytoplankton–zooplankton" interface, along with its turnover time, provides crucial insights for modeling diet estimation of components within food webs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Acute and multigenerational toxicity of polylactic acid microplastics on a copepod bioindicator.

Author

Ali, Wajid, Das, Shagnika, Thery, Jeremy, Jeong, Haksoo, Lee, Jae-Seong, Zinck, Philippe, and Souissi, Sami

Subjects

*POLYLACTIC acid, *BIODEGRADABLE plastics, *MICROPLASTICS, *BODY size, *PLASTICS, *PLASTIC marine debris

Abstract

Bioplastics such as polylactic acid are actually promoted as eco-friendly alternatives to fossil fuel-derived plastics, yet bioplastic toxicity remains poorly known. Here we studied the acute and multigenerational effects of polylactic acid microplastics on the copepod Eurytemora affinis, a bioindicator species of zooplankton. Results on acute toxicity revealed that lethal concentration values are higher for adult males, of 134.6 mg microplastic/L, than for adult females, of 106.9 mg/L. In multigeneration exposure, 400 µg/L polylactic acid microplastics induced higher mortality, production of smaller-sized eggs, elongation of the naupliar phase, and offspring with lower fitness. This led to reduction in female body size, including prosome length, width, and volume. Noteworthy, we also observed a recovery in copepod survival and reproductive parameters in the fifth filial generation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Long-term increase in copepod community body size in a temperate estuary over a 40-year times series.

Author

Mallick, Nayan, Allen, Dennis M, and Stone, Joshua P

Subjects

*ACARTIA, *BODY size, *LUNAR phases, *TIME series analysis, *BIOMASS

Abstract

We investigated long-term changes in copepod community body size in a temperate estuary in the Southeastern United States. Mesozooplankton samples were collected twice each lunar cycle from 1981 to 2020 during the months of March to July. We found strong evidence for a long-term increase in body size, likely driven by shifts in species composition, with the most rapid increase occurring during the most recent decade (2011–2020). Between the 1980s and 2010s, we documented an increase in the proportion of Oithona spp. (small species) and Acartia tonsa and Pseudodiaptomus pelagicus (large species) and decreased proportion of Parvocalanus crassirostris (small species). Temperature was inversely related with monthly mean body size, potentially driving the seasonal shifts in size, but was not correlated with the observed long-term trend. We detected strong seasonality in the normalized biomass size spectra slope, but the slope for each month did not vary interannually with changes in temperature. Overall, our study showed a long-term increase in copepod community body size that was not directly linked to changes in temperature but instead to changes in species composition. [ABSTRACT FROM AUTHOR]

Published

2024

7. Nutritional condition drives spatial variation in physiology of Antarctic lipid‐storing copepods.

Author

Berger, Cory A., Steinberg, Deborah K., and Tarrant, Ann M.

Subjects

*GENE expression, *ALGAL blooms, *AEROBIC metabolism, *TRANSCRIPTOMES, *LIPID metabolism

Abstract

Lipid‐rich copepods form an essential link between primary producers and higher trophic levels in high‐latitude oceans. These zooplankton can take advantage of ephemeral phytoplankton blooms to fuel development and reproduction. However, we have limited understanding of how the physiological condition of these animals varies in relation to environmental factors such as food availability. Due to high advection, it is likely that physiological plasticity, rather than local adaptation, is primarily responsible for physiological differences within a region. We use transcriptomics and other physiological metrics to understand how two species of copepods (Calanoides acutus and Calanus propinquus) vary across environmental gradients along the West Antarctic Peninsula. For the primarily herbivorous C. acutus, physiological separation between sampling locations appears to be driven by feeding status, and gene expression differences indicate differential expression of genes regulating lipid metabolism, reproduction, aerobic metabolism, and protein translation. For the more omnivorous C. propinquus, physiology and gene expression did not segregate as clearly by location, showed minimal signs of food deprivation at any location, and had a weaker relationship with chlorophyll compared to C. acutus. By comparing these results with concurrent starvation experiments, we find that spatial variation in gene expression reflects short‐term differences in food availability (particularly for C. acutus), and we identify genes whose expression indicates recent feeding status. Further examination of the relationships between food availability, copepod physiology, and population dynamics will ultimately improve our capacity to predict how copepod populations will respond to rapidly changing environmental conditions in the West Antarctic Peninsula ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Role of Zooplankton Community Composition in Fecal Pellet Carbon Production in the York River Estuary, Chesapeake Bay.

Author

Sharpe, Kristen N., Steinberg, Deborah K., and Stamieszkin, Karen

Abstract

Zooplankton play a key role in the cycling of carbon in aquatic ecosystems, yet their production of carbon-rich fecal pellets, which sink to depth and can fuel benthic community metabolism, is rarely quantified in estuaries. We measured fecal pellet carbon (FPC) production by the whole near-surface mesozooplankton community in the York River sub-estuary of Chesapeake Bay. Zooplankton biomass and taxonomic composition were measured with monthly paired day/night net tows. Live animal experiments were used to quantify FPC production rates of the whole community and dominant individual taxa. Zooplankton biomass increased in surface waters at night (2- to 29-fold) due to diel vertical migration, especially by Acartia spp. copepods. Biomass and diversity were seasonally low in the winter and high in the summer and often dominated by Acartia copepods. Whole community FPC production rates were higher (3- to 65-fold) at night than during the day, with the 0.5–1 mm size class contributing 2–26% to FPC production in the day versus 40–70% at night. An increase in the relative contribution of larger size fractions to total FPC production occurred at night due to diel vertical migration of larger animals into surface waters. Community FPC production was highest in fall due to increased diversity and abundance of larger animals producing larger fecal pellets, and lowest in summer likely due to top-down control of abundant crustacean taxa by gelatinous predators. This study indicates that zooplankton FPC production in estuaries can surpass that in oceanic systems and suggests that fecal pellet export is important in benthic-pelagic coupling in estuaries. [ABSTRACT FROM AUTHOR]

Published

2025

9. Peracetic acid treatment of squid eggs infected with parasitic copepod (Ikanecator primus gen. et sp. nov.)

Author

Mehmet Arif Zoral, Zdenek Lajbner, Lucia Zifcakova, and Jonathan Miller

Subjects

Cephalopod, Sepioteuthis, Copepod, Ikanecator primus, Peracetic acid, Medicine, Science

Abstract

Abstract Having been successfully bred in semi-intensive and intensive aquaculture systems, oval squids of the Sepioteuthis lessoniana species complex are emerging as promising candidates for research and industry. Nevertheless, information about pathogens and diseases that may affect squid aquaculture remains sparse. In this study, we identify new parasitic copepod species that causes squid mortality and decreases squid hatching rates, and we also offer a solution to eliminate the pathogen during incubation of squid eggs. The newly discovered copepod Ikanecator primus gen. et sp. nov. was identified on oval squid eggs for the first time using both morphological and molecular diagnostic markers. In the genomes of the copepod and associated microbiome, we identified multiple genes for enzymes involved in cephalopod eggshell degradation in genomes of the copepod and associated microbiome. Furthermore, we conducted experiments to assess efficacy of peracetic acid in inhibiting the I. primus gen. et sp. nov. both in vitro and in vivo using immersion treatment. We established that a 2-min exposure to a concentration of 250 μl/L of peracetic acid containing product (PAA-product; 35 mg/L PAA and 15 mg/L H2O2) inhibited the development of nauplii in vitro. All parasites exposed to a concentration of 500 μl/L of PAA-product (70 mg/L PAA and 30 mg/L H2O2) were eliminated within two minutes. On top of this, the immersion treatment with 500 μl/L of PAA-product (70 mg/L PAA and 30 mg/L H2O2) improved survival of squid embryos and increased size of squid hatchlings compared with control and the immersion treatment with 125 μl/L of PAA-product (17.5 mg/L PAA and 7.5 mg/L H2O2) and the immersion treatment with 250 μl/L of PAA-product (35 mg/L PAA and 15 mg/L H2O2). These findings suggest that PAA holds a great potential as inhibitor and controller of parasitic copepod infections and for overall health management in cephalopod culture.

Published

2024

10. Distribution and bioaccumulation status of polycyclic aromatic hydrocarbons (PAHs) in Veraval coastal waters using copepods as bio-indicators.

Author

Kharat, Pooja Yuvraj, Nair, Midhun M., Rakesh, P. S., and Haridevi, C. K.

Subjects

TERRITORIAL waters, POLYCYCLIC aromatic hydrocarbons, PRINCIPAL components analysis, COPEPODA, GROUNDFISHES

Abstract

The study investigates the pollution characteristics of 16 priority PAHs, accumulated in copepods from a major fishing harbour and its adjacent coastal waters of Veraval, west coast of India. The total PAH accumulation is in the range of 922.16–27,807.49 ng g−1 dw, with the mean concentration of 5776.59 ng g−1 dw. High concentrations of PAHs were present in the copepod samples from inside the harbour. Notably, there was no significant correlation between the lipid content of copepods and the accumulation of PAHs. The molecular diagnostic ratio method (MDR) indicates that the PAH sources are petrogenic in origin, while principal component analysis (PCA) points to petroleum, coal combustion and vehicular emission sources. Total cancerous PAHs (C-PAHs) in the study area dominate by 40% of the total PAHs identified; moreover, the bioaccumulation factor (BAF) is very high in the offshore area, which is also a fishing ground. The global relevance and magnitude of the present study in the Veraval, one of the prime seafood exporting hubs in India, should be dealt with utmost avidity as the accumulation status of PAHs in the zooplankton has never been explored in the Indian coastal waters. Moreover, the current study gives the foremost data on the bioaccumulation status of PAHs in copepods from the tropical waters of India. [ABSTRACT FROM AUTHOR]

Published

2024

11. Optimal phenology of life history events in Calanus finmarchicus: exit from diapause in relation to interannual variation in spring bloom timing and predation.

Author

Anderson, Thomas R, Hessen, Dag O, Gentleman, Wendy C, Yool, Andrew, and Mayor, Daniel J

Subjects

*CALANUS finmarchicus, *ALGAL blooms, *FLOWERING time, *DIAPAUSE, *CARBON sequestration

Abstract

Respiration of lipids by copepods during diapause (overwintering dormancy) contributes to ocean carbon sequestration via the seasonal lipid pump (SLP). Parameterizing this flux in predictive models requires a mechanistic understanding of how life history adaptation in copepods shapes their timing of exit from diapause. We investigate the optimal phenology of Calanus finmarchicus in the Norwegian Sea using an individual-based model in which diapause exit is represented as a trait characterized by phenotypic mean and variance. Without interannual variability, optimal exit correlated with the onset of the spring phytoplankton bloom and phenotypic variance was of no benefit. In contrast, copepods endured reduced fitness and adopted bet-hedging strategies when exposed to interannual variability in bloom timing and predation: later exit from diapause and phenotypic variance maintained adult numbers in anomalous late-bloom years. Exit nevertheless remained well before the peak of the bloom which is a favorable strategy when low predation early in the year enhances survival of eggs and early developmental stages. Our work highlights the complex interactions between C. finmarchicus and its environment and the need for improved understanding of bet-hedging strategies and the cues of diapause exit to progress the representation of the SLP in global biogeochemical models. [ABSTRACT FROM AUTHOR]

Published

2024

12. A First Record on Microplastic Ingestion by Tropical Estuarine Copepods of Bangladesh.

Author

Khan, Najmus Sakib, Bari, Jaber Bin Abdul, Mahatab Uddin, S. M., Rahman, Mohammad Shamsur, Uddin, Maeen, Bhowmik, Sweety, Nisa, Sanjida Akter, Alam, Md. Ashraful, and Hossain, Mohammad Nazir

Subjects

COPEPODA, INGESTION, SCANNING electron microscopes, SEAFOOD, SEAFOOD industry, FOOD security

Abstract

Microplastics (MPs) pollution is a profound problem around the world yet it's study on the effect on zooplankton including copepods are very limited. The study was conducted between January 2021 and January 2022 in the Lower Meghna Estuary to investigate MPs ingestion in two different family of copepod: Calanoid and Cyclopoid. A method of acid digestion along with Scanning Electron Microscope (SEM) was used to identify MPs ingested by copepods from the conducted area. However, three types of MPs namely fiber, fragment and foam were extracted from this copepod biomass. Fibers represent highest (> 50%) of the ingested MPs from both group of copepod that exceed fragments and foams in all sampling stations. The overall ingestion rate of Calanoid was found higher (0.084 ± 0.002 particles/individual) compared to the Cyclopoid group (0.077 ± 0.001 particles/individual). The results of the study have effectively illustrated that copepod, obtained from multiple sampling sites within the Lower Meghna Estuary, display a propensity to ingest MPs and subsequently endangering the food security of seafood industry. [ABSTRACT FROM AUTHOR]

Published

2024

13. Peracetic acid treatment of squid eggs infected with parasitic copepod (Ikanecator primus gen. et sp. nov.).

Author

Zoral, Mehmet Arif, Lajbner, Zdenek, Zifcakova, Lucia, and Miller, Jonathan

Subjects

*PERACETIC acid, *SQUIDS, *EGGSHELLS, *EGGS, *PARASITIC diseases, *ISLANDS of Langerhans, *EGG incubation

Abstract

Having been successfully bred in semi-intensive and intensive aquaculture systems, oval squids of the Sepioteuthis lessoniana species complex are emerging as promising candidates for research and industry. Nevertheless, information about pathogens and diseases that may affect squid aquaculture remains sparse. In this study, we identify new parasitic copepod species that causes squid mortality and decreases squid hatching rates, and we also offer a solution to eliminate the pathogen during incubation of squid eggs. The newly discovered copepod Ikanecator primus gen. et sp. nov. was identified on oval squid eggs for the first time using both morphological and molecular diagnostic markers. In the genomes of the copepod and associated microbiome, we identified multiple genes for enzymes involved in cephalopod eggshell degradation in genomes of the copepod and associated microbiome. Furthermore, we conducted experiments to assess efficacy of peracetic acid in inhibiting the I. primus gen. et sp. nov. both in vitro and in vivo using immersion treatment. We established that a 2-min exposure to a concentration of 250 μl/L of peracetic acid containing product (PAA-product; 35 mg/L PAA and 15 mg/L H2O2) inhibited the development of nauplii in vitro. All parasites exposed to a concentration of 500 μl/L of PAA-product (70 mg/L PAA and 30 mg/L H2O2) were eliminated within two minutes. On top of this, the immersion treatment with 500 μl/L of PAA-product (70 mg/L PAA and 30 mg/L H2O2) improved survival of squid embryos and increased size of squid hatchlings compared with control and the immersion treatment with 125 μl/L of PAA-product (17.5 mg/L PAA and 7.5 mg/L H2O2) and the immersion treatment with 250 μl/L of PAA-product (35 mg/L PAA and 15 mg/L H2O2). These findings suggest that PAA holds a great potential as inhibitor and controller of parasitic copepod infections and for overall health management in cephalopod culture. [ABSTRACT FROM AUTHOR]

Published

2024

14. Occurrence of the calanoid copepod Acartia (Odontacartia) ohtsukai in Laizhou Bay, the Bohai Sea, China, and its relationship with environmental factors.

Author

Tao Zuo, Di Wang, Yongtao Li, Mingxiang Niu, Zhaolong Cheng, and Jun Wang

Subjects

ACARTIA, WATER temperature, STATISTICAL correlation

Abstract

In this study, we examined the short-term variation in the abundance of copepod Acartia specimens, identified previously as Acartia pacifica, in Laizhou Bay, an estuarine bay in the southern Bohai Sea in northern China. Monthly samples were collected from May 2011 to April 2012, excluding December 2011 and January to February 2012 due to ice. Based on its morphological characteristics, Acartia ohtsukai was distinguishable from A. pacifica for the first time in Laizhou Bay. A. ohtsukai was sporadically present from summer to autumn, with the highest abundance and occurrence in September. It appeared in June when the water temperature was above 20°C, and disappeared in November when the water temperature decreased to less than 10°C. During the surveyed months, A. ohtsukai was more commonly found inshore with salinity less than 28 than offshore in the bay. Correlation analysis revealed that temperature and chlorophyll a concentration significantly influenced the monthly variations in A. ohtsukai abundance. We also compared the occurrence of A. ohtsukai with that of three species from the genus Tortanus (Tortanus derjugini, Tortanus forcipatus, and Tortanus spinicaudatus) in Laizhou Bay. The coexistence of A. ohtsukai and T. derjugini in the bay suggests that their ecological habitats are similar to those of brackish-water species. [ABSTRACT FROM AUTHOR]

Published

2024

15. Warming effects on the life cycles of two parasitic copepods with different invasion histories.

Author

Jolma, Elli Rosa Emilia, Born‐Torrijos, Ana, Heesterbeek, Hans, van Leeuwen, Anieke, van Leeuwen, Sonja Maria, Twijnstra, Robert H., Wegner, K. Mathias, and Thieltges, David W.

Subjects

*PARASITE life cycles, *CALANOIDA, *LIFE cycles (Biology), *HEAT waves (Meteorology), *GLOBAL warming, *BODY temperature regulation, *COPEPODA

Abstract

Climate change may exacerbate the impact of invasive parasites from warmer climates through pre‐existing temperature adaptations. We investigated temperature impacts on two closely related marine parasitic copepod species that share the blue mussel (Mytilus edulis) as host: Mytilicola orientalis has invaded the system from a warmer climate <20 years ago, whereas its established congener Mytilicola intestinalis has had >90 years to adapt. In laboratory experiments with temperatures 10–26°C, covering current and future temperatures as well as heat waves, the development of both life cycle stages of both species accelerated with increasing temperature. In the parasitic stages, the growth of the established invader increased evenly from 10°C to 22°C, whereas the recent invader barely grew at all at 10°C and grew faster already at 18°C. In contrast, temperature had little effect on the transition success between life cycle stages. However, the highest temperature (26°C) limited the egg development success of the established invader and the host entry success of both species, whereas the infection success of the established invader increased at 18°C and 22°C. In general, our experiments indicate that the main effect of temperature on both species is through development speed and not life cycle stage transition success. Based on regional long‐term temperature data and predictions, the numbers of completed life cycles per year will increase for both parasites. The established invader seems better adapted for low current temperatures (around 10°C), whereas the more recent invader barely develops at these temperatures but can cope in high temperatures (around 26°C). Hence, pre‐existing temperature adaptations of the recent invader may allow the species to better cope with heat waves. [ABSTRACT FROM AUTHOR]

Published

2024

16. A novel technology towards the high-density and continuous production of the marine copepod, Pseudodiaptomus annandalei (Sewell, 1919).

Author

Santhanam, Perumal, Marjuk, Mohammed Syed, Gunabal, Shanmugam, Sridhar, Palani, Raju, Piliyan, Ananth, Selvaraj, Nandakumar, Ravichandran, Kaviyarasan, Moorthy, Devi, Ayyanar Shenbaga, Jeyanthi, Selvakumaran, Divya, Meril, Krishnaveni, Nagarajan, Gowthami, Ayyasamy, and Perumal, Pachiappan

Abstract

The copepods are nutritionally superior and important live-feed organisms in aquaculture. However, attaining the high density and continuous production of copepods to fulfil the requirements of fish larval production is still a challenge, as compared to other live feeds such as artemia and rotifer. The lack of effective technology in the live feed industry failed to produce a mass density of copepods. Pseudodiaptomus annandalei is a common tropical calanoid copepod species. Hence, the present study attempted the high-density and continuous production of P. annandalei through various optimization technologies, namely, selective and induced breeding by environmental induction, hormone induction, and microbial induction. The copepod P. annandalei was tested with various selective breeding methods, i.e. (a) 18°C cold selective breeding (18°C CSB), (b) 26°C normal selective breeding (26°C NSB), and (c) non-selective breeding (control). This study reveals, compared to 18°C CSB and control copepods, the 26°C NSB copepod P. annandalei produced a significant population of 17181.6 ± 371.2 ind/l using RASC. Across the five generations, the mean nauplii production genetic gain (∆G) for G5 was 29.6% with calculated heritability (h2) of 0.30. For the continuous production of copepod, P. annandalei was optimized with suitable environmental parameters. In hormone induction, 20 μg/L bisphenol A and 40 μg/L 17β-estradiol produced high NPR, but the survival rate (SR) decreased while using these hormones. In the meantime, probiotic induction gave a positive result in terms of NPR. The maximum NPR in P. annandalei was induced by Bacillus subtilis at a concentration of 106 CFU/mL, and probiotic induction also improved the copepod SR. Our findings provide the first concrete proof that P. annandalei would be a candidate species with favourable outcomes for selective breeding—improving its reproductive capacity. [ABSTRACT FROM AUTHOR]

Published

2024

17. Developmental rate displays effects of inheritance but not of sex in interpopulation hybrids of Tigriopus californicus.

Author

Healy, Timothy M, Hargadon, Alexis Cody, and Burton, Ronald S

Subjects

Cell Nucleus, Mitochondria, Animals, Copepoda, Adenosine Triphosphate, Hybridization, Genetic, Female, Male, ATP synthesis, coevolution, copepod, heritability, mitochondria, mitonuclear, Genetics

Abstract

Coevolved genetic interactions within populations can be disrupted by hybridization resulting in loss of fitness in hybrid individuals (i.e., hybrid breakdown). However, the extent to which variation in fitness-related traits among hybrids is inherited across generations remains unclear, and variation in these traits may be sex-specific in hybrids due to differential effects of genetic incompatibilities in females and males. Here we present two experiments investigating variation in developmental rate among reciprocal interpopulation hybrids of the intertidal copepod Tigriopus californicus. Developmental rate is a fitness-related trait in this species that is affected by interactions between mitochondrial-encoded and nuclear-encoded genes in hybrids that result in variation in mitochondrial ATP synthesis capacities. First, we show that F2 -hybrid developmental rate is equivalent in two reciprocal crosses and is unaffected by sex, suggesting that breakdown of developmental rate is likely experienced equally by females and males. Second, we demonstrate that variation in developmental rate among F3 hybrids is heritable; times to copepodid metamorphosis of F4 offspring of fast-developing F3 parents (12.25 ± 0.05 days, μ ± SEM) were significantly faster than those of F4 offspring of slow-developing parents (14.58 ± 0.05 days). Third, we find that ATP synthesis rates in these F4 hybrids are unaffected by the developmental rates of their parents, but that mitochondria from females synthesize ATP at faster rates than mitochondria from males. Taken together, these results suggest that sex-specific effects vary among fitness-related traits in these hybrids, and that effects likely associated with hybrid breakdown display substantial inheritance across hybrid generations.

Published

2023

18. Genetic incompatibilities in reciprocal hybrids between populations of Tigriopus californicus with low to moderate mitochondrial sequence divergence.

Author

Healy, Timothy M and Burton, Ronald S

Subjects

Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, copepod, mitonuclear, mitochondria, coevolution, Pool-seq, inter-genomic, Ecology, Evolutionary Biology

Abstract

All mitochondrial-encoded proteins and RNAs function through interactions with nuclear-encoded proteins, which are critical for mitochondrial performance and eukaryotic fitness. Coevolution maintains inter-genomic (i.e., mitonuclear) compatibility within a taxon, but hybridization can disrupt coevolved interactions, resulting in hybrid breakdown. Thus, mitonuclear incompatibilities may be important mechanisms underlying reproductive isolation and, potentially, speciation. Here we utilize Pool-seq to assess the effects of mitochondrial genotype on nuclear allele frequencies in fast- and slow-developing reciprocal inter-population F2 hybrids between relatively low-divergence populations of the intertidal copepod Tigriopus californicus. We show that mitonuclear interactions lead to elevated frequencies of coevolved (i.e., maternal) nuclear alleles on two chromosomes in crosses between populations with 1.5% or 9.6% fixed differences in mitochondrial DNA nucleotide sequence. However, we also find evidence of excess mismatched (i.e., non-coevolved) alleles on three or four chromosomes per cross, respectively, and of allele frequency differences consistent with effects involving only nuclear loci (i.e., unaffected by mitochondrial genotype). Thus, our results for low-divergence crosses suggest an underlying role for mitonuclear interactions in variation in hybrid developmental rate, but despite substantial effects of mitonuclear coevolution on individual chromosomes, no clear bias favouring coevolved interactions overall.

Published

2023

19. Differential gene expression and mitonuclear incompatibilities in fast‐ and slow‐developing interpopulation Tigriopus californicus hybrids

Author

Healy, Timothy M and Burton, Ronald S

Subjects

Biological Sciences, Genetics, Biotechnology, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, DNA, Mitochondrial, Copepoda, Mitochondria, Genome, Mitochondrial, Gene Expression, coevolution, copepod, cytonuclear, developmental rate, mitochondria, RNA-seq, Evolutionary Biology, Biological sciences

Abstract

Mitochondrial functions are intimately reliant on proteins and RNAs encoded in both the nuclear and mitochondrial genomes, leading to inter-genomic coevolution within taxa. Hybridization can break apart coevolved mitonuclear genotypes, resulting in decreased mitochondrial performance and reduced fitness. This hybrid breakdown is an important component of outbreeding depression and early-stage reproductive isolation. However, the mechanisms contributing to mitonuclear interactions remain poorly resolved. Here, we scored variation in developmental rate (a proxy for fitness) among reciprocal F2 interpopulation hybrids of the intertidal copepod Tigriopus californicus and used RNA sequencing to assess differences in gene expression between fast- and slow-developing hybrids. In total, differences in expression associated with developmental rate were detected for 2925 genes, whereas only 135 genes were differentially expressed as a result of differences in mitochondrial genotype. Upregulated expression in fast developers was enriched for genes involved in chitin-based cuticle development, oxidation-reduction processes, hydrogen peroxide catabolic processes and mitochondrial respiratory chain complex I. In contrast, upregulation in slow developers was enriched for DNA replication, cell division, DNA damage and DNA repair. Eighty-four nuclear-encoded mitochondrial genes were differentially expressed between fast- and slow-developing copepods, including 12 subunits of the electron transport system (ETS) which all had higher expression in fast developers than in slow developers. Nine of these genes were subunits of ETS complex I. Our results emphasize the major roles that mitonuclear interactions within the ETS, particularly in complex I, play in hybrid breakdown, and resolve strong candidate genes for involvement in mitonuclear interactions.

Published

2023

20. Modulation of fatty acid profiles and turnover dynamics in jellyfish polyps through copepod diets: Insights into trophic interactions and nutrient flux

Author

Xupeng Chi, Fang Zhang, and Song Sun

Subjects

bioconversion, copepod, fatty acid, food quality, jellyfish, turnover, Ecology, QH540-549.5

Abstract

Abstract Fatty acids (FAs) are vital biomolecules crucial for determining food quality for higher trophic levels. To investigate FA transfer and turnover time in predators, we conducted a diet switch experiment using jellyfish polyps. These polyps were fed food sources including Artemia sinica nauplii and FA‐manipulated copepod Pseudodiaptomus annandalei, maintained on distinct algal diets with varied FA compositions. Our findings reveal that copepods may have a strong potential to synthesize long‐chain polyunsaturated FA to maintain biochemical homeostasis when consuming low‐quality food. Consequently, the species‐specific fatty acid composition within plankton, combined with effects of seasonal environmental fluctuations and climate change, leads to changes in the FA composition of foundational food web components. These alterations create a complex “nutrient black box” effect as they propagate up trophic levels. Our study shows that jellyfish polyps fail to accumulate EPA and DHA but display high levels of ARA compared to their zooplankton and phytoplankton food sources, suggesting a potential association with dietary EPA and DHA through an unidentified pathway. Certain FA components indicate variations in the turnover time when polyps undergo a dietary shift. Understanding the trajectory of FA metabolism across the “phytoplankton–zooplankton” interface, along with its turnover time, provides crucial insights for modeling diet estimation of components within food webs.

Published

2024

21. Nutritional condition drives spatial variation in physiology of Antarctic lipid‐storing copepods

Author

Cory A. Berger, Deborah K. Steinberg, and Ann M. Tarrant

Subjects

Antarctic, copepod, metabolism, Southern Ocean, transcriptomics, zooplankton, Ecology, QH540-549.5

Abstract

Abstract Lipid‐rich copepods form an essential link between primary producers and higher trophic levels in high‐latitude oceans. These zooplankton can take advantage of ephemeral phytoplankton blooms to fuel development and reproduction. However, we have limited understanding of how the physiological condition of these animals varies in relation to environmental factors such as food availability. Due to high advection, it is likely that physiological plasticity, rather than local adaptation, is primarily responsible for physiological differences within a region. We use transcriptomics and other physiological metrics to understand how two species of copepods (Calanoides acutus and Calanus propinquus) vary across environmental gradients along the West Antarctic Peninsula. For the primarily herbivorous C. acutus, physiological separation between sampling locations appears to be driven by feeding status, and gene expression differences indicate differential expression of genes regulating lipid metabolism, reproduction, aerobic metabolism, and protein translation. For the more omnivorous C. propinquus, physiology and gene expression did not segregate as clearly by location, showed minimal signs of food deprivation at any location, and had a weaker relationship with chlorophyll compared to C. acutus. By comparing these results with concurrent starvation experiments, we find that spatial variation in gene expression reflects short‐term differences in food availability (particularly for C. acutus), and we identify genes whose expression indicates recent feeding status. Further examination of the relationships between food availability, copepod physiology, and population dynamics will ultimately improve our capacity to predict how copepod populations will respond to rapidly changing environmental conditions in the West Antarctic Peninsula ecosystem.

Published

2024

22. Experimental study on interaction between epizoic diatoms and Pseudodiaptomus annandalei

Author

Lin, Jinchun, Li, Lang, Li, Xuesong, Chen, Changping, Liang, Junrong, Wang, Chengwen, Wu, Ruixiang, Sun, Lin, and Gao, Yahui

Published

2024

23. A preliminary checklist of Copepoda in the mangrove areas of Munroe Island, adjacent to Ashtamudi estuary, Kerala, India.

Author

Arya, M. S., Biju, A., and Benchamin, Dani

Subjects

MANGROVE plants, COPEPODA, MANGROVE ecology, ESTUARIES, CALANOIDA, HARPACTICOIDA, MANGROVE forests

Abstract

The present investigation was conducted to assess the species composition of Copepoda in Munroe Island from October 2020 to September 2022. As the information about the species composition of Copepoda is scarce in the mangrove habitats of the southern part of Kerala, their appraisal assumes greater significance. Copepod samples collected from the mangrove habitats of Munroe Island of Kerala (southern India) revealed 31 species belonging to 18 genera and 15 families. The order Calanoida was recognized as the most dominant taxa with 23 species, followed by Harpacticoida (five species) and Cyclopoida (three species). Among the 15 families encountered, Acartiidae, Centropagidae, Harpacticidae, Paracalanidae and Pseudodiaptomidae were the most diverse. Species such as Acartia bilobata, Paracalanus parvus, Pseudodiaptomus aurivillii, Pseudocalanus elongatus, Microsetella norvegica, and Oithona similis were found to be perennial. The investigation calls for intensive copepod surveys to reveal their ecology and diversity in the hitherto less-studied region in southern India. [ABSTRACT FROM AUTHOR]

Published

2024

24. A Process for Scaling an Independent Course-Based Undergraduate Research Experience: Lessons Learned From Expansion of the Tigriopus CURE to Diverse Institutions.

Author

Fisher, Ginger R., Floyd, Kevin W., and Olimpo, Jeffrey T.

Subjects

*WOMEN'S colleges, *UNIVERSITIES & colleges, *IDENTITY (Psychology), *STUDENT engagement, *ACADEMIC motivation

Abstract

Course-based undergraduate research experiences (CUREs) increase student engagement in scientific practices and empower students to generate novel findings. Previous studies have demonstrated that CUREs are more effective at enhancing students' motivations, attitudes, science identity development, and acquisition of science process skills than traditional (i.e., prescriptive) laboratory exercises. Historically, CUREs have adopted one of two structures—the "network" CURE, in which faculty nationwide are provided with training to implement a single CURE model (e.g., SEA-PHAGES), or the "independent" CURE, which is centered around an individual faculty member's research expertise. Although independent CUREs are quite common, few studies have examined the process for and impacts of scaling up an independent CURE for use in diverse institutional contexts. To address this gap, we employed a quasi-experimental mixed-methods design to evaluate how an independent CURE, the Tigriopus CURE, could be modified for implementation at a Hispanic-Serving Institution, a liberal arts college, and a women's college. Analysis of pre- and post-semester data revealed significant differences in CURE students' science identity development, experimental design skills, and motivations relative to a matched comparison group consisting of students enrolled in a traditional laboratory course. These findings highlight the effectiveness of independent CUREs as well as the utility of the Tigriopus CURE across institutional settings. [ABSTRACT FROM AUTHOR]

Published

2024

25. Temporal variations in the copepod community structure during the sand lance fishery season near the Akashi Strait, eastern Seto Inland Sea.

Author

TETSUYA NISHIKAWA, TSUYOSHI WATANABE, KAZUSHI FURUSAWA, and KAZUAKI TADOKORO

Subjects

*SPRING, *FOOD shortages, *CALANUS, *CLUSTER analysis (Statistics), *BIOMASS

Abstract

Around the Akashi Strait, about half of the catch of the sand lance in Harima-Nada and Osaka Bay is caught in winter to early spring. The annual catch has continued to decrease after the 1990s, and it is suggested that the decline in catch was caused by copepod shortage as food. In the present study, frequent samplings of copepods were conducted from December to early April around the Akashi Strait for three years to evaluate copepod abundance and biomass. Around the Akashi Strait, the dominant species by abundance were Paracalanus spp., Oithona spp. and Microsetella norvegica, but by biomass, the most dominant was Calanus sinicus. Cluster analysis showed that copepod adult communities, based on biomass, were classified into five groups, and the representative species were Oithona similis, Subeucalanus crassus, M. norvegica, Euchaeta plana and C. sinicus, respectively. Especially from February to early April, most of the copepod communities were classified into cluster group 5, characterized by a high biomass of C. sinicus. This period coincides with the active feeding on copepods by sand lance. These results suggest that C. sinicus is the most important prey item for sand lance around the Akashi Strait. In addition, the temporal recruitment of pelagic species such as S. crassus and E. plana contributed to an increase in copepod biomass. There is concern that environmental shifts will lead to declines in C. sinicus, resulting in a decline in the total copepod biomass in this area. [ABSTRACT FROM AUTHOR]

Published

2024

26. Hydrostatic pressure impedes the degradation of sinking copepod carcasses and fecal pellets.

Author

Franco-Cisterna, Belén, Stief, Peter, and Glud, Ronnie N

Subjects

*ANIMAL droppings, *CALANUS finmarchicus, *COLLOIDAL carbon, *MICROBIAL respiration, *HYDROSTATIC pressure, *LOW temperatures

Abstract

Fast-sinking zooplankton carcasses and fecal pellets appear to contribute significantly to the vertical transport of particulate organic carbon (POC), partly because of low temperature that decreases microbial degradation during the descent into the deep ocean. Increasing hydrostatic pressure could further reduce the degradation efficiency of sinking POC, but this effect remains unexplored. Here, the degradation of carcasses and fecal pellets of the abundant marine copepod Calanus finmarchicus was experimentally studied as a function of pressure (0.1–100 MPa). Samples were either exposed to elevated pressure in short 1-day incubations or a gradual pressure increase, simulating continuous particle sinking during a 20-day incubation. Both experiments revealed gradual inhibition of microbial respiration in the pressure range of 20–100 MPa, corresponding to 2–10-km depth. This suggests that hydrostatic pressure impedes carbon mineralization of fast-sinking carcasses and fecal pellets and enhances the deep-sea deposition rate of zooplankton-derived organic material. [ABSTRACT FROM AUTHOR]

Published

2024

27. MicroCT illuminates the unique morphology of Shiinoidae (Copepoda: Cyclopoida), an unusual group of fish parasites.

Author

Bernot, James P., Boxshall, Geoffrey A., Goetz, Freya E., and Phillips, Anna J.

Subjects

BODY composition, MORPHOLOGY, BEAKS, CALANOIDA, CUTICLE, FISH parasites, COPEPODA

Abstract

The copepod family Shiinoidae Cressey, 1975 currently comprises nine species of teleost parasites with unusual morphology and a unique attachment mechanism. Female shiinoids possess greatly enlarged antennae that oppose a rostrum, an elongate outgrowth of cuticle that originates between the antennules. The antennae form a moveable clasp against the rostrum which they use to attach to their host. In this study, we use micro-computed tomography (microCT) to examine specimens of Shiinoa inauris Cressey, 1975 in situ attached to host tissue in order to characterize the functional morphology and specific muscles involved in this novel mode of attachment and to resolve uncertainty regarding the segmental composition of the regions of the body. We review the host and locality data for all reports of shiinoids, revise the generic diagnoses for both constituent genera Shiinoa Kabata, 1968 and Parashiinoa West, 1986, transfer Shiinoa rostrata Balaraman, Prabha & Pillai, 1984 to Parashiinoa as Parashiinoa rostrata (Balaraman, Prabha & Pillai, 1984) n. comb., and present keys to the females and males of both genera. [ABSTRACT FROM AUTHOR]

Published

2024

28. Warming effects on the life cycles of two parasitic copepods with different invasion histories

Author

Elli Rosa Emilia Jolma, Ana Born‐Torrijos, Hans Heesterbeek, Anieke vanLeeuwen, Sonja Maria vanLeeuwen, Robert H. Twijnstra, K. Mathias Wegner, and David W. Thieltges

Subjects

climate change, copepod, invasive species, Mytilicola intestinalis, Mytilicola orientalis, Mytilus edulis, Ecology, QH540-549.5

Abstract

Abstract Climate change may exacerbate the impact of invasive parasites from warmer climates through pre‐existing temperature adaptations. We investigated temperature impacts on two closely related marine parasitic copepod species that share the blue mussel (Mytilus edulis) as host: Mytilicola orientalis has invaded the system from a warmer climate 90 years to adapt. In laboratory experiments with temperatures 10–26°C, covering current and future temperatures as well as heat waves, the development of both life cycle stages of both species accelerated with increasing temperature. In the parasitic stages, the growth of the established invader increased evenly from 10°C to 22°C, whereas the recent invader barely grew at all at 10°C and grew faster already at 18°C. In contrast, temperature had little effect on the transition success between life cycle stages. However, the highest temperature (26°C) limited the egg development success of the established invader and the host entry success of both species, whereas the infection success of the established invader increased at 18°C and 22°C. In general, our experiments indicate that the main effect of temperature on both species is through development speed and not life cycle stage transition success. Based on regional long‐term temperature data and predictions, the numbers of completed life cycles per year will increase for both parasites. The established invader seems better adapted for low current temperatures (around 10°C), whereas the more recent invader barely develops at these temperatures but can cope in high temperatures (around 26°C). Hence, pre‐existing temperature adaptations of the recent invader may allow the species to better cope with heat waves.

Published

2024

29. Site-specific Parasitism of Crustaceans on the Black Pomfret, Parastromateus niger (Carangidae) from Indian Waters

Author

Helna, Ameri Kottarathil, Aneesh, Panakkool Thamban, Kumar, Appukuttannair Biju, Ohtsuka, Susumu, and Maran, Balu Alagar Venmathi

Published

2024

30. Developmental temperature, more than long‐term evolution, defines thermal tolerance in an estuarine copepod.

Author

Ashlock, Lauren, Darwin, Chelsea, Crooker, Jessica, deMayo, James, Dam, Hans G., and Pespeni, Melissa

Subjects

*LONG-Term Evolution (Telecommunications), *SEAWATER salinity, *WATER salinization, *ACARTIA, *OCEAN temperature, *HIGH temperatures, *CORAL bleaching, *GEOTHERMAL ecology

Abstract

Climate change is resulting in increasing ocean temperatures and salinity variability, particularly in estuarine environments. Tolerance of temperature and salinity change interact and thus may impact organismal resilience. Populations can respond to multiple stressors in the short‐term (i.e., plasticity) or over longer timescales (i.e., adaptation). However, little is known about the short‐ or long‐term effects of elevated temperature on the tolerance of acute temperature and salinity changes. Here, we characterized the response of the near‐shore and estuarine copepod, Acartia tonsa, to temperature and salinity stress. Copepods originated from one of two sets of replicated >40 generation‐old temperature‐adapted lines: ambient (AM, 18°C) and ocean warming (OW, 22°C). Copepods from these lines were subjected to one and three generations at the reciprocal temperature. Copepods from all treatments were then assessed for differences in acute temperature and salinity tolerance. Development (one generation), three generations, and >40 generations of warming increased thermal tolerance compared to Ambient conditions, with development in OW resulting in equal thermal tolerance to three and >40 generations of OW. Strikingly, developmental OW and >40 generations of OW had no effect on low salinity tolerance relative to ambient. By contrast, when environmental salinity was reduced first, copepods had lower thermal tolerances. These results highlight the critical role for plasticity in the copepod climate response and suggest that salinity variability may reduce copepod tolerance to subsequent warming. [ABSTRACT FROM AUTHOR]

Published

2024

31. Revisiting the burglar alarm hypothesis: A behavioural cascade mediated by dinoflagellate bioluminescence.

Author

Huang, Yuan, Ryderheim, Fredrik, and Kiørboe, Thomas

Subjects

*BURGLAR alarms, *BIOLUMINESCENCE, *STARTLE reaction, *GYMNODINIUM, *MARINE organisms, *SWIMMING, *DINOFLAGELLATES

Abstract

Bioluminescence is widespread among marine organisms and has evolved independently multiple times. While its specific adaptive value is diverse, bioluminescence in most cases mediates fundamental interactions between individuals (predator, prey, mates) and thus impacts ecosystem processes. One hypothesized value of bioluminescence in dinoflagellates is through the 'burglar alarm': Grazers of phytoplankton will make the ambient water 'glow' as they swim, thereby attracting visual predators of the grazer, thus indirectly protecting the dinoflagellates.However, the most important grazers of dinoflagellates, copepods, are generally too small to elicit dinoflagellates to glow. Only individual cells captured by a copepod will flash, which in turn elicits a powerful escape response in the copepod. Here, we test a variant of this hypothesis that may work for copepods. The behavioural response of the grazer to the flashing of a captured dinoflagellate, rather than the flashing itself, attracts the attention of the grazer's flow‐sensing predators.We demonstrate that bioluminescence in three dinoflagellates reduces the clearance and ingestion rate of nauplii of the copepod Temora longicornis. The presence of bioluminescent cells also elicited an increased frequency of high‐speed jumps of the grazers.The increased jump frequency elevated the detectability of the grazers to a flow‐sensing predator, the copepod Centropages typicus, consequently leading to increased predation mortality of T. longicornis nauplii.The consequent behavioural cascade mediated by bioluminescence works for small grazers that cause only single cells to flash, unlike the traditional description of the burglar alarm. The significance of such behavioural mediated indirect interactions in shaping food webs is becoming increasingly recognized, although rarely demonstrated in pelagic food webs.We argue that the burglar alarm is a secondary adaptation, while the defence of individual cells is the primary adaptive value of bioluminescence in dinoflagellates. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

32. Salmon louse labial gland enzymes: implications for host settlement and immune modulation.

Author

Midtbø, Helena Marie Doherty, Eichner, Christiane, Hamre, Lars Are, Dondrup, Michael, Flesland, Linn, Tysseland, Kristoffer Helland, Kongshaug, Heidi, Borchel, Andreas, Skoge, Renate Hvidsten, Nilsen, Frank, and Øvergård, Aina-Cathrine

Subjects

SALIVARY glands, LEPEOPHTHEIRUS salmonis, IMMUNOREGULATION, ATLANTIC salmon, PROTEIN domains, POTASSIUM channels

Abstract

Salmon louse (Lepeophtheirus salmonis) is a skin- and blood-feeding ectoparasite, infesting salmonids. While feeding, labial gland proteins from the salmon louse may be deposited on the Atlantic salmon (Salmo salar) skin. Previously characterized labial gland proteins are involved in anti-coagulation and may contribute to inhibiting Atlantic salmon from mounting a sufficient immune response against the ectoparasite. As labial gland proteins seem to be important in the host-parasite interaction, we have, therefore, identified and characterized ten enzymes localized to the labial gland. They are a large group of astacins named L. salmonis labial gland astacin 1-8 (LsLGA 1-8), one serine protease named L. salmonis labial gland serine protease 1 (LsLGSP1), and one apyrase named L. salmonis labial gland apyrase 1 (LsLGAp1). Protein domain predictions showed that LsLGA proteins all have N-terminal ShK domains, which may bind to potassium channels targeting the astacins to its substrate. LsLGA1 and -4 are, in addition, expressed in another gland type, whose secrete also meets the host-parasite interface. This suggests that LsLGA proteins may have an antimicrobial function and may prevent secondary infections in the wounds. LsLGAp1 is predicted to hydrolyze ATP or AMP and is, thereby, suggested to have an immune dampening function. In a knockdown study targeting LsLGSP1, a significant increase in IL-8 and MMP13 at the skin infestation site was seen under LsLGSP1 knockdown salmon louse compared to the control, suggesting that LsLGSP1 may have an anti-inflammatory effect. Moreover, most of the identified labial gland proteins are expressed in mature copepodids prior to host settlement, are not regulated by starvation, and are expressed at similar or higher levels in lice infesting the salmon louse-resistant pink salmon (Oncorhynchus gorbuscha). This study, thereby, emphasizes the importance of labial gland proteins for host settlement and their immune dampening function. This work can further contribute to anti-salmon louse treatment such as vaccine development, functional feed, or gene-edited salmon louse-resistant Atlantic salmon. [ABSTRACT FROM AUTHOR]

Published

2024

33. Temperature increase alters relative fatty acid composition and has negative effects on reproductive output of the benthic copepod Tachidius discipes (copepoda: Harpacticoida).

Author

Vigliano Relva, J., Van Colen, C., Barhdadi, W., Daly, A. J., and De Troch, M.

Subjects

*CALANOIDA, *COPEPODA, *HARPACTICOIDA, *FATTY acids, *EICOSAPENTAENOIC acid, *OCEAN temperature, *AQUATIC invertebrates, *FISH larvae

Abstract

Copepods are aquatic invertebrates with a key role at the basis of marine food webs due to their high biomass as well as their elevated fatty acid (FA) content. Eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) are two FA abundant in copepods which have a well demonstrated role in growth and reproduction in marine organisms. While the majority of research has focused on planktonic copepod species, less is known for benthic species despite their high richness, abundance and their role as the main food source for many fish larvae. Temperature is a key driver of organism's fitness as well as ecosystem functioning and sea surface temperature is expected to rise under all CO2 emission scenarios. Thus, understanding how copepods will respond to such changes is crucial given their role in marine food webs. In this study we expose laboratory reared Tachidius discipes, an intertidal benthic copepod to a temperature gradient (12, 15, 18, 21 and 24 °C) including current seasonal variability as well as future scenarios. Survival, FA, growth rates and nauplii production were measured for each temperature. We found decreased survival, increased growth rates and detrimental effects for nauplii production with temperature increase. While relative EPA and DHA decreased with temperature this was not found on absolute levels of these FA. Changes in benthic copepods' biomass as well as their FA composition in response to temperature changes could amplify to higher trophic levels with consequences for food web functioning. [ABSTRACT FROM AUTHOR]

Published

2024

34. Spatial Density, Biomass, and Composition of Crustacean Zooplankton on Lake Michigan Beaches.

Author

Johnston, Samuel J., Smith, Jason B., Slater, Brady D., and Doubek, Jonathan P.

Subjects

*BEACHES, *BIOMASS, *FISH larvae, *ZOOPLANKTON, *CRUSTACEA, *FISHERY management

Abstract

Ecosystem alterations to Lake Michigan (LM), such as the invasion of dreissenid mussels, have decreased the abundance of phytoplankton and, subsequently, zooplankton, which has implications for Great Lake fisheries. The community composition of zooplankton has also been altered over the past 20 years in LM, shifting the summer dominance from cladoceran to calanoid taxa. However, most of our information on zooplankton community dynamics is from deeper pelagic zones. The nearshore beach (≤1 m) habitat, which serves as a critical nursery for some larvae and juvenile fish, is composed of different zooplankton taxa than deeper zones, but limited data are available for comparison. We conducted a standardized summer sampling campaign to characterize the zooplankton community across 32 beaches in LM. We found the lowest crustacean zooplankton density and biomass on northern LM beaches and a higher zooplankton density and biomass on Greater Green Bay and central LM beaches, which had warmer water temperatures. Smaller-bodied cladocera (mainly Bosmina) and cyclopoid taxa were the most abundant groups on beaches. Our results provide the first comprehensive characterization of zooplankton on beaches in the Great Lakes, with applications for other lake systems. These results may help identify potential "hot spots" of fish recruitment for management. [ABSTRACT FROM AUTHOR]

Published

2023

35. A review of functional approaches for the study of freshwater communities with a focus on zooplankton.

Author

Branco, Christina Wyss Castelo, Fintelman-Oliveira, Ewerton, and dos Santos Miranda, Viviane Bernardes

Subjects

*ZOOPLANKTON, *FRESH water, *FRESHWATER biodiversity, *HABITAT selection, *LIFE spans, *ROTIFERA, *FUNCTIONAL groups, *INVERTEBRATES

Abstract

In this review we provide an overview of functional traits for freshwater communities, including macrophytes, periphyton, phytoplankton, fish, macroinvertebrates, and more thoroughly testate amoebae, rotifers, cladocerans, and copepods. Our approach provides a synopsis of functional traits of these groups, which is emerging as a valuable tool in evaluating environmental changes and anthropogenic influences. For the zooplankton community gathering information on traits remains a work in progress. Employing a standardized schema when selecting functional traits across zooplankton groups is a non-optional task; this is especially the case for rotifers because to their diversity of forms and feeding strategies. The role of microcrustaceans in trophic chains has highlighted importance of traits for this group, thus providing clues to their ecosystem effects. Here we aim at providing a framework for functional trait selection in aquatic communities prioritizing life strategies in resources acquisition, habitat preference, and life span and reproduction. Notwithstanding, the assembly of a framework of traits remains in progress and with it, is the taking shape of multiple and varying functions and services that the diverse communities are constantly providing within freshwater ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

36. Elevated temperature and low pH affect the development, reproduction, and feeding preference of the tropical cyclopoid copepod Oithona rigida.

Author

Khalifa, Umer, Ebenezer, Vinitha, and Pierson, James J.

Subjects

LOW temperatures, HIGH temperatures, DUNALIELLA salina, TEMPERATURE effect, REPRODUCTION, VITAL statistics, EGG incubation, EGGS

Abstract

The copepod genus Oithona is among the most abundant mesozooplankton in both eutrophic and oligotrophic waters. This paper reports the individual and combined effect of temperature and pH on the development, reproduction success, and feeding preference of the tropical species Oithona rigida. Experiments were conducted at different temperature (28, 30, 31, and 32°C) and pH (7.7, 7.9, and 8.1) conditions. Effects on vital rates were observed for different developmental stages and adult males. Sex ratio varied from near 1:1 at 28°C to almost entirely female at 32°C. Egg production and hatching success were maximum at 30°C and pH at 7.9. O. rigida preferred the motile green alga Dunaliella salina in terms of ingestion rate, feed selectivity, and egg production across all the temperature and pH conditions. Long-term studies are needed to validate the adaptability of this species to a variety of climate impacts. [ABSTRACT FROM AUTHOR]

Published

2023

37. MicroCT illuminates the unique morphology of Shiinoidae (Copepoda: Cyclopoida), an unusual group of fish parasites

Author

James P. Bernot, Geoffrey A. Boxshall, Freya E. Goetz, and Anna J. Phillips

Subjects

Copepod, Parasite, Functional morphology, MicroCT, Cyclopoida, Rostrum, Medicine, Biology (General), QH301-705.5

Abstract

The copepod family Shiinoidae Cressey, 1975 currently comprises nine species of teleost parasites with unusual morphology and a unique attachment mechanism. Female shiinoids possess greatly enlarged antennae that oppose a rostrum, an elongate outgrowth of cuticle that originates between the antennules. The antennae form a moveable clasp against the rostrum which they use to attach to their host. In this study, we use micro-computed tomography (microCT) to examine specimens of Shiinoa inauris Cressey, 1975 in situ attached to host tissue in order to characterize the functional morphology and specific muscles involved in this novel mode of attachment and to resolve uncertainty regarding the segmental composition of the regions of the body. We review the host and locality data for all reports of shiinoids, revise the generic diagnoses for both constituent genera Shiinoa Kabata, 1968 and Parashiinoa West, 1986, transfer Shiinoa rostrata Balaraman, Prabha & Pillai, 1984 to Parashiinoa as Parashiinoa rostrata (Balaraman, Prabha & Pillai, 1984) n. comb., and present keys to the females and males of both genera.

Published

2024

38. Aquatic Invertebrates of the Devereux Slough 2018-19

Author

Senesac, Steven

Subjects

invertebrate, aquatic, water quality, copepod, ostracod

Abstract

In 2018, the hardscape construction of NCOS (North Campus Open Space), a restored, closed estuary, wetland on the Northern border of COPR (Coal Oil Point Reserve), was completed; thus, approximately doubling its overall size and offering the rather unique opportunity of being able to compare the well-established COPR wetland with the newly constructed, adjoining, NCOS wetland. Basic water quality and aquatic invertebrate monitoring data collection of both sites were undertaken to help better understand the dynamics of how a newly constructed wetland develops into an established wetland and to establish a baseline for future monitoring. Aquatic invertebrate sampling protocols were evaluated indicating that sampling in algae gives more than an order-of-magnitude greater abundance and diversity than sampling in open water and that the Filtered Beaker method gives more precise species density information than the Sweep-Net method; when sampling at shallower depths where the Sweep-Net is not fully submerged. Additionally, there are significant issues with how benthic samples are traditionally collected and analyzed. Four taxa are the more significant contributors to the total taxa observed –Copepods, Ostracods, Cladocera, and Corixidae. Additionally, we found Oligochaete, Chironomids, Nematodes, and Ephydridae in significant abundance. The type and number of invertebrates collected are evaluated in terms of site, salinity, and location in the sampling column (planktonic or benthic).

Published

2022

39. Developmental temperature, more than long‐term evolution, defines thermal tolerance in an estuarine copepod

Author

Lauren Ashlock, Chelsea Darwin, Jessica Crooker, James deMayo, Hans G. Dam, and Melissa Pespeni

Subjects

adaptation, climate change, copepod, plasticity, salinity tolerance, thermal tolerance, Ecology, QH540-549.5

Abstract

Abstract Climate change is resulting in increasing ocean temperatures and salinity variability, particularly in estuarine environments. Tolerance of temperature and salinity change interact and thus may impact organismal resilience. Populations can respond to multiple stressors in the short‐term (i.e., plasticity) or over longer timescales (i.e., adaptation). However, little is known about the short‐ or long‐term effects of elevated temperature on the tolerance of acute temperature and salinity changes. Here, we characterized the response of the near‐shore and estuarine copepod, Acartia tonsa, to temperature and salinity stress. Copepods originated from one of two sets of replicated >40 generation‐old temperature‐adapted lines: ambient (AM, 18°C) and ocean warming (OW, 22°C). Copepods from these lines were subjected to one and three generations at the reciprocal temperature. Copepods from all treatments were then assessed for differences in acute temperature and salinity tolerance. Development (one generation), three generations, and >40 generations of warming increased thermal tolerance compared to Ambient conditions, with development in OW resulting in equal thermal tolerance to three and >40 generations of OW. Strikingly, developmental OW and >40 generations of OW had no effect on low salinity tolerance relative to ambient. By contrast, when environmental salinity was reduced first, copepods had lower thermal tolerances. These results highlight the critical role for plasticity in the copepod climate response and suggest that salinity variability may reduce copepod tolerance to subsequent warming.

Published

2024

40. Exploring Microplastics in Seawater and Zooplankton on the Eastern Coast of Thailand: A Case Study in Phuket Province

Author

Pensiri Akkajit, Sirima Yuankerd, and Arsanchai Sukkuea

Subjects

Bivalvia larvae, Copepod, Fish larvae, Microplastics, Phuket, Shrimp larvae, Environmental sciences, GE1-350, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Microplastics can accumulate in the environment and be transferred to different trophic levels, making them a concern for the aquatic food chain. As far as the researcher is aware, this study is the first to analyze microplastics in seawater and zooplankton along the eastern coastline of Phuket, Thailand, emphasizing their ecological significance. Analysis of the seawater samples identified 256 microplastic particles, with an average concentration of 52.6±21.4 and 32.6±30.3 particles L-1 for 20–300 µm and >300 µm classes, respectively. Four zooplankton species—copepod, fish larvae, bivalvia larvae, and shrimp larvae—were chosen for examination. The findings indicated that microplastics can move to higher trophic levels, and their interaction with zooplankton resulted in 26 microplastic particles among the 120 zooplankton individuals observed. This yielded an average ingestion rate of 0.22±0.57 particles per individual zooplankton, with the highest rate observed among fish larvae. The micro-Fourier Transform Interferometer (µFT-IR) analysis verified the presence of polyethylene terephthalate (PET), polyethylene (PE), polyester, urea-formaldehyde (UF), and polyamide (PA). This underscores the prevalence of these polymers in daily and human-made plastic sources, emphasizing the need to implement effective measures to address micro-plastic pollution in ecologically vital areas to safeguard marine environments.

Published

2024

41. Salmon louse labial gland enzymes: implications for host settlement and immune modulation

Author

Helena Marie Doherty Midtbø, Christiane Eichner, Lars Are Hamre, Michael Dondrup, Linn Flesland, Kristoffer Helland Tysseland, Heidi Kongshaug, Andreas Borchel, Renate Hvidsten Skoge, Frank Nilsen, and Aina-Cathrine Øvergård

Subjects

arthropod, copepod, development, RNA interference, gene expression, transcriptomics, Genetics, QH426-470

Abstract

Salmon louse (Lepeophtheirus salmonis) is a skin- and blood-feeding ectoparasite, infesting salmonids. While feeding, labial gland proteins from the salmon louse may be deposited on the Atlantic salmon (Salmo salar) skin. Previously characterized labial gland proteins are involved in anti-coagulation and may contribute to inhibiting Atlantic salmon from mounting a sufficient immune response against the ectoparasite. As labial gland proteins seem to be important in the host–parasite interaction, we have, therefore, identified and characterized ten enzymes localized to the labial gland. They are a large group of astacins named L. salmonis labial gland astacin 1–8 (LsLGA 1–8), one serine protease named L. salmonis labial gland serine protease 1 (LsLGSP1), and one apyrase named L. salmonis labial gland apyrase 1 (LsLGAp1). Protein domain predictions showed that LsLGA proteins all have N-terminal ShK domains, which may bind to potassium channels targeting the astacins to its substrate. LsLGA1 and -4 are, in addition, expressed in another gland type, whose secrete also meets the host–parasite interface. This suggests that LsLGA proteins may have an anti-microbial function and may prevent secondary infections in the wounds. LsLGAp1 is predicted to hydrolyze ATP or AMP and is, thereby, suggested to have an immune dampening function. In a knockdown study targeting LsLGSP1, a significant increase in IL-8 and MMP13 at the skin infestation site was seen under LsLGSP1 knockdown salmon louse compared to the control, suggesting that LsLGSP1 may have an anti-inflammatory effect. Moreover, most of the identified labial gland proteins are expressed in mature copepodids prior to host settlement, are not regulated by starvation, and are expressed at similar or higher levels in lice infesting the salmon louse-resistant pink salmon (Oncorhynchus gorbuscha). This study, thereby, emphasizes the importance of labial gland proteins for host settlement and their immune dampening function. This work can further contribute to anti-salmon louse treatment such as vaccine development, functional feed, or gene-edited salmon louse-resistant Atlantic salmon.

Published

2024

42. Aquamimicry (Copefloc technology): an innovative approach for sustainable organic farming with special reference to shrimp aquaculture

Author

Deepti, Mutum, Meinam, Martina, Devi, Ng Chinglembi, Singh, Soibam Khogen, and Devi, Wangkheimayum Malemnganbi

Published

2024

43. Fauna of metazoan parasites of Pterygoplichthys pardalis (Castelnau, 1855) sold at fairs in the city of Manaus, state of Amazonas, Brazil

Author

Makoto Enoki Caracciolo, Daniel Brito Porto, Maria Paula Mourão, José Celso de Oliveira Malta, and Wanderley de Souza

Subjects

Amazon, helminths, copepod, siluriformes., Biology (General), QH301-705.5, Microbiology, QR1-502

Abstract

Pterygoplichthys pardalis is an endemic as well as economically important fish species in the Amazon basin. Thirty P. pardalis specimens were purchased at assorted fairs in the city of Manaus. Fish were necropsied, and then, had their organs investigated for parasites. The identified parasites were observed under Light bright field microscopy and that of Scanning Electron Microscopy (SEM). Through the analyses it was observed 219 metazoan parasite specimens, belonging to four taxonomic groups: Monogenoidea, Digenea, Acanthocephala, and Copepoda. Six metazoan parasitic species were identified: Monogenoidea Unilatus unilatus Mizelle and Kritsky, 1967 and Copepoda Therodamas elongatus (Thatcher, 1986) from the gills, Digenea Austrodiplostomum compactum (Lutz, 1928), Megacoelium spinicavum Szidat, 1954 and Diplostomum sp. from the eyes, stomach, and gonads, respectively, and Acanthocephala Gorytocephalus elongorchis Thatcher, 1979 from the intestine. Gorytocephalus elongorchis was the one presenting the highest prevalence value, followed by digeneans M. spinicavum, Diplostomum sp., and A. compactum. The present study has come to provide the very first SEM M. spinicavum, G. elongorchis, and T. elongatus images, thus improving on the up to now available data addressing P. pardalis parasitic fauna, which has been found to be infecting, the fish species presently being marketed in Manaus. Moreover, the current survey has demonstrated the identified parasite species pose no public health concern at all.

Published

2023

44. Starvation reduces thermal limits of the widespread copepod Acartia tonsa.

Author

Rueda Moreno, Gaia and Sasaki, Matthew C.

Subjects

*ACARTIA, *CALANOIDA, *EFFECT of human beings on climate change, *STARVATION, *GEOTHERMAL ecology, *AQUATIC habitats, *COPEPODA

Abstract

Organismal thermal limits affect a wide range of biogeographical and ecological processes. Copepods are some of the most abundant animals on the planet and play key roles in aquatic habitats. Despite their abundance and ecological importance, there is limited data on the factors that affect copepod thermal limits, impeding our ability to predict how aquatic ecosystems will be affected by anthropogenic climate change. In a warming ocean, one factor that may have particularly important effects on thermal limits is the availability of food. A recently proposed feedback loop known as "metabolic meltdown" suggests that starvation and exposure to high temperatures interact to drastically reduce organismal thermal limits, increasing vulnerability to warming. To investigate one component of this feedback loop, we examined how starvation affects thermal limits (critical thermal maxima: CTmax) of Acartia tonsa, a widespread estuarine copepod. We found that there was no effect of short‐duration exposure to starvation (up to 2 days). However, after 3 days, there was a significant decrease in the CTmax of starved copepods relative to the fed controls. Our results provide empirical evidence that extended periods of starvation reduce thermal limits, potentially initiating "metabolic meltdown" in this key species of coastal copepod. This suggests that changes in food availability may increase the vulnerability of copepods to increasing temperatures, amplifying the effects of climate change on coastal systems. [ABSTRACT FROM AUTHOR]

Published

2023

45. Acute and Chronic Effects of the Antifouling Booster Biocide Diuron on the Harpacticoid Copepod Tigriopus japonicus Revealed through Multi-Biomarker Determination.

Author

Yun, Young-Joo, Kim, Sung-Ah, Kim, Jaehee, and Rhee, Jae-Sung

Subjects

DIURON, GLUTATHIONE peroxidase, ANTIFOULING paint, GLUTATHIONE reductase, REACTIVE oxygen species, SUPEROXIDE dismutase

Abstract

Diuron, an additive biocide in antifouling paints, is widely employed to curtail the attachment of organisms on submerged surfaces in aquatic structures. Despite the detection of diuron in aquatic ecosystems, information regarding its acute and chronic impacts on aquatic invertebrates, particularly planktonic crustaceans, remains limited. In this study, we analyzed the acute (24 h) and chronic (12 days exposure across three generations) effects of different concentrations of diuron (1/10 of the no observed effect concentration (NOEC), the NOEC, and 1/10 of the lethal concentration 50% (LC50), derived from the 24 h acute toxicity value of 1152 μg L−1) on the harpacticoid copepod Tigriopus japonicus. The acute exposure experiment indicated that the 1/10 LC50 value of diuron significantly reduced the copepod's feeding rate and acetylcholinesterase activity. In response to the 1/10 LC50 value, the intracellular reactive oxygen species were elevated alongside increased malondialdehyde levels, while the glutathione content was depleted. The enzymatic activities of glutathione S-transferase, catalase, and superoxide dismutase were significantly enhanced by the 1/10 LC50 value, suggesting a proactive role of the antioxidant defense system against oxidative stress. Conversely, the activities of glutathione peroxidase and glutathione reductase enzymes were increased at the NOEC value, while their values were reduced by the 1/10 LC50 value. Chronic exposure to 1/10 NOEC and NOEC values revealed the adverse multigenerational effects of diuron. The second generation exhibited the most sensitivity to diuron, with the NOEC value notably reducing survival rate, body length, nauplius-to-adult development, neonates per brood count, and extending the reproduction period. Taken together, our findings underscore that even sublethal diuron levels can adversely impact copepod populations across generations through intergenerational toxicity. [ABSTRACT FROM AUTHOR]

Published

2023

46. Molecular quantification of copepod Acartia erythraea feeding on different algae preys.

Author

Hu, Simin, Li, Tao, Huang, Hui, and Liu, Sheng

Abstract

Quantitative evaluation of the copepod feeding process is critical for understanding the functioning of marine food webs, as this provides a major link between primary producers and higher trophic levels. In this study, a molecular protocol based on quantitative polymerase chain reaction (qPCR) targeting 18S rDNA was developed and used to investigate the feeding and digestion rates of the copepod Acartia erythraea in a laboratory experiment using microalgae Thalassiosira weissflogii, Prorocentrum shikokuense, and Alexandrium catenella as prey. Although offered an equal encounter rate based on biovolume, prey uptake varied substantially among the three algal species, with the ingestion rate (IR) and digestion rate (DR) of A. erythraea differing significantly (P < 0.001) based on both cell counting and qPCR detection. Acartia erythraea showed the highest IR (2.79 × 104 cells/(ind.·h)) and DR (2.43 × 104 cells/(ind.·h)) on T. weissflogii, and the lowest amounts of ingested P. shikokuense were detected. The highest assimilation rate (∼90.64%, IR/DR) was observed in copepods fed with P. shikokuense. The qPCR method used here can help determine the digestion rate and assimilation rate of copepods by detecting cells remaining in the gut hence providing the possibility to examine trophic links involving key species in the marine ecosystem. Our results indicate that A. erythraea has diet-specific feeding performance in different processes, and a quantitative assessment of copepod feeding is needed to accurately determine its functional role in the energy and matter uptake from marine food webs. [ABSTRACT FROM AUTHOR]

Published

2023

47. Invasive and Rare Aquatic Invertebrates of Taiwan with a Focus on Their Dormancy.

Author

Alekseev, Victor, Dahms, Hans-Uwe, Hwang, Jiang-Shiou, and Sukhikh, Natalia

Subjects

RARE invertebrates, INTRODUCED aquatic species, BALLAST water, TROPICAL ecosystems

Abstract

Invertebrates in tropical ecosystems are generally considered to have little or no need for a dormant phase due to the stability of the habitat. However, resting stages of aquatic organisms are occasionally found here as well. This fact increases the possibility of transport of tropical organisms by ships' ballast water, which is the main vector for the spread of alien aquatic organisms between continents. During a study of resting stages in the bottom sediments of the island of Taiwan in 2006–2007, nine species of invertebrates were found, invasive or new to the fauna of the island, with some of them forming large banks of resting stages in sediments. [ABSTRACT FROM AUTHOR]

Published

2023

48. Differential response of distinct copepod life history types to spring environmental forcing in Rivers Inlet, British Columbia, Canada.

Author

Tommasi, Desiree, Hunt, Brian, and Pakhomov, Evgeny

Subjects

Copepod, Demography, Fjord, Functional traits, Life history, Phenology

Abstract

The temporal dynamics of five copepod species common to coastal waters of the Pacific Northwest were examined in relation to variability in spring temperature and phytoplankton dynamics in 2008, 2009, and 2010 in Rivers Inlet, British Columbia, Canada. The five species were differentiated by life history strategies. Acartia longiremis, Metridia pacifica, and Paraeuchaeta elongata remained active over most of the year. By contrast, the reproductive effort of Eucalanus bungii and Calanus marshallae was concentrated over the spring period and they spent most of the year in diapause as C5 copepodites. A delay in the timing of the spring bloom was associated with a shift in the phenology of all species. However, following the delay in spring bloom timing, recruitment to the G1 cohort was reduced only for E. bungii and C. marshallae. Recruitment successes of E. bungii and C. marshallae was also drastically reduced in 2010, an El Niño year, when spring temperatures were highest. Reasons for the observed differential response to spring environmental forcing, and its effect on upper trophic levels, are discussed.

Published

2021

49. Starvation reduces thermal limits of the widespread copepod Acartia tonsa

Author

Gaia Rueda Moreno and Matthew C. Sasaki

Subjects

climate change, copepod, starvation, temperature, thermal limit, Ecology, QH540-549.5

Abstract

Abstract Organismal thermal limits affect a wide range of biogeographical and ecological processes. Copepods are some of the most abundant animals on the planet and play key roles in aquatic habitats. Despite their abundance and ecological importance, there is limited data on the factors that affect copepod thermal limits, impeding our ability to predict how aquatic ecosystems will be affected by anthropogenic climate change. In a warming ocean, one factor that may have particularly important effects on thermal limits is the availability of food. A recently proposed feedback loop known as “metabolic meltdown” suggests that starvation and exposure to high temperatures interact to drastically reduce organismal thermal limits, increasing vulnerability to warming. To investigate one component of this feedback loop, we examined how starvation affects thermal limits (critical thermal maxima: CTmax) of Acartia tonsa, a widespread estuarine copepod. We found that there was no effect of short‐duration exposure to starvation (up to 2 days). However, after 3 days, there was a significant decrease in the CTmax of starved copepods relative to the fed controls. Our results provide empirical evidence that extended periods of starvation reduce thermal limits, potentially initiating “metabolic meltdown” in this key species of coastal copepod. This suggests that changes in food availability may increase the vulnerability of copepods to increasing temperatures, amplifying the effects of climate change on coastal systems.

Published

2023

50. Effects of temperature and microalgal diet on the fecundity, population growth and fatty acid composition of Pseudodiaptomus ishigakiensis (Calanoid, Copepoda)

Author

Bwaraniko Paul, Yung-Cheng Chang, Yi-Yang Lin, Te-Hua Hsu, and Yen-Ju Pan

Subjects

Copepod, Temperature, Microalgal diet, Population growth, Fecundity, Fatty acids, Aquaculture. Fisheries. Angling, SH1-691

Abstract

This study aims to investigate the optimal culture conditions of the marine calanoid copepod Pseudodiaptomus ishigakiensis, which is considered emerging live feed for marine larviculture. The effects of temperatures (20 °C, 25 °C, 30 °C and 35 °C) and microalgal diets Isochrysis galbana (ISO), Proteomonas sulcata (PRO), Chlorella sp. (CHL) and Tetraselmis chuii (TET) on the fecundity, population growth rate, composition of developmental stages and fatty acid composition of P. ishigakiensis were evaluated. The highest population growth rate (60.6 ± 4.9 ind./day) was found at 30 °C with the significantly-highest number of naupliar individuals (726.7 ± 30.6 ind.) and a high level of fecundity (14.4 ± 0.7 eggs/female). Whereas the lowest population growth was found at 35 °C (0.4 ± 0.2 ind./day). In the diet experiment, the population growth rate (73.8 ± 1.9 ind./day) was the highest in the PRO treatment with a great number of naupliar individuals (912.50 ± 24.7 ind.) and fecundity (13.4 ± 0.6 eggs/female). Both TET and CHL treatments showed the lowest population growth (0.5 ± 0.1 ind./day and 0.2 ± 0.1 ind./day, respectively) and absence of ovigerous female at the end of experiment, which indicated their unsuitability as feeds for P. ishigakiensis. Fatty acid compositions of copepods were affected by the fatty acid content of their microalgal diets. The copepods fed on ISO and PRO contained higher levels of eicosapentaenoic acid (EPA, C20:5 n-3; 4.51 ± 1.29–5.42 ± 0.64%) and docosahexaenoic acid (DHA, C22:6 n-3; 4.00 ± 0.34–5.92 ± 1.28%) composition compared to CHL and TET (EPA: 0.48 ± 0.15–2.65 ± 1.27%; DHA: 1.68 ± 0.26–1.89 ± 0.14%). This study revealed the optimal culture conditions and nutritional value of the copepod P. ishigakiensis, which provides implications for the managements of their mass culture, and utilization in marine larviculture.

Published

2023