Sayyed Mohammad Hadi Alavi scite author profile

The spermatozoa of most fish species are immotile in the testis and seminal plasma. Therefore, motility is induced after the spermatozoa are released into the aqueous environment during natural reproduction or into the diluent during artificial reproduction. There are clear relationships between seminal plasma composition and osmolality and the duration of fish sperm motility. Various parameters such as ion concentrations (K+, Na+, and Ca2+), osmotic pressure, pH, temperature and dilution rate affect motility. In the present paper, we review the roles of these ions on sperm motility in Salmonidae, Cyprinidae, Acipenseridae and marine fishes, and their relationship with seminal plasma composition. Results in the literature show that: 1. K+ is a key ion controlling sperm motility in Salmonidae and Acipenseridae in combination with osmotic pressure; this control is more simple in other fish species: sperm motility is prevented when the osmotic pressure is high (Cyprinidae) or low (marine fishes) compared to that of the seminal fluid. 2. Cations (mostly divalent, such as Ca2+) are antagonistic with the inhibitory effect of K+ on sperm motility. 3. In many species, Ca2+ influx and K+ or Na+ efflux through specific ionic channels change the membrane potential and eventually lead to an increase in cAMP concentration in the cell, which constitutes the initiation signal for sperm motility in Salmonidae. 4. Media that are hyper- and hypo-osmotic relative to seminal fluid trigger sperm motility in marine and freshwater fishes, respectively. 5. The motility of fish spermatozoa is controlled through their sensitivity to osmolality and ion concentrations. This phenomenon is related to ionic channel activities in the membrane and governs the motility mechanisms of axonemes.

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Sperm motility in fishes. I. Effects of temperature and pH: a review

Alavi

Cosson

2005

Cell Biology International

328

220

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Sperm motility is a key factor in allowing us to determine semen quality and fertilizing capacity. Motility in semen is mainly controlled by K+ in salmonids, and probably also in sturgeons, and by osmotic pressure in other freshwater and seawater fish species, but other factors, such as concentration of surrounding metabolites and ions (Ca2+, Mg2+, etc.), pH and temperature also influence motility characteristics. In the present study, we have mainly reviewed and summarized the effects of temperature and pH on the motility of spermatozoa in three fish species: salmonids, cyprinids and sturgeons. Data in the literature show that motility, fertilizing ability and velocity of spermatozoa, as well as the duration of the motility period, depend on the temperature of the assay medium and also of that of the brood fish holding tank. In contrast, the pH of the swimming medium, and thus the intracellular pH of spermatozoa, has less influence on sperm motility parameters in cyprinids, salmonids and sturgeons.

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Semen of Perca fluviatilis L.: Sperm volume and density, seminal plasma indices and effects of dilution ratio, ions and osmolality on sperm motility

Alavi¹,

Rodina²,

Policar³

et al. 2007

Theriogenology

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Preferences for interactional feedback: differences between learners and teachers

Kaivanpanah

Alavi

Sepehrinia

2012

The Language Learning Journal

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The present study examines Iranian language learners' views on different types of oral corrective feedback and explores the relationship with learners' language proficiency. It then compares the learners' views with those of their teachers. The study is based on a 36-item questionnaire completed by 154 English as a foreign language (EFL) learners at three different proficiency levels and by 25 EFL teachers. The teachers' views were explored further through semi-structured interviews. The results confirmed that more proficient learners tended to favor more elicitative types of feedback that required self-correction. Despite stronger support for teacher-led feedback, learners at all levels were in general positive about peer feedback. This contrasted with their teachers' more cautious attitudes to peer feedback and immediate feedback on errors. The teachers' attitudes seemed to be based on undue concern about the negative feelings students might experience as a result of such feedback. Given this mismatch between the teachers and learners' views, the study concludes by emphasising the importance of consulting students on their beliefs in order to offer the widest possible range of learning opportunities.

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Morphology and ultrastructure of Siberian sturgeon (Acipenser baerii) spermatozoa using scanning and transmission electron microscopy

Pšenička¹,

Alavi²,

Rodina³

et al. 2007

Biology of the Cell

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Background information. Available data concerning the sperm morphology of teleost fishes demonstrate wide variation. In the present study, the spermatozoa of Siberian sturgeon (Acipenser baerii Brandt, 1869), a chondrostean fish, was investigated. In contrast with teleost fish, chondrostean spermatozoa have a head with a distinct acrosome, whereas other structures, such as a midpiece and a single flagellum, are present in spermatozoa of most species.Results. The average length of the head including the acrosome and the midpiece was 7.01 + − 0.83 µm. Ten posterolateral projections derived from the acrosome were present on a subacrosomal region, with mean lengths of 0.94 + − 0.15 µm and widths of 0.93 + − 0.11 µm. The nucleus consisted of electrodense homogeneous nuclear chromatin. Three intertwining endonuclear canals, bound by membranes, traversed the nucleus longitudinally from the acrosomal end to the basal nuclear fossa region. There were between three and six mitochondria, two types of centrioles (proximal and distal) in the midpiece and two vacuoles composed of lipid droplets. The flagellum (44.75 + − 4.93 µm in length), originating from the centriolar apparatus, had a typical 9 + 2 eukaryotic flagellar organization. In addition, there was an extracellular cytoplasm canal between the cytoplasmic sheath and the flagellum. Conclusions.A principal components analysis explained the individual morphological variation fairly well. Of the total accumulated variance, 41.45% was accounted for by parameters related to the head and midpiece of the sperm and the length of the flagellum. Comparing the present study with previous studies of morphology of sturgeon spermatozoa, there were large inter-or intra-specific differences that could be valuable taxonomically.

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