Reproductive biology of annual killifishes and its relationship with embryonic survival during diapause: Millerichthys robustus (Cyprinodontiformes: Cynolebiidae) as an integrative model

Diapause is a metabolic arrest expressed by annual killifish embryos as an extreme adaptation to persist in environments that show alternate periods of favourable‐hostile conditions along the annual cycle. Survival under deteriorated condition can be considered as the final consequence of a previous set of complementary morphophysiological and behavioral processes in adult fishes. Millerichthys robustus is the only annual fish that has developed an annual life history in North America wherewith allow us to consider it as an emerging model for annual killifishes to review, analyze and integrate the knowledge about its reproductive biology involved in allowing the embryos in diapause to survive face the hostile environmental condition. First, we review developmental ecology of Millerichthys embryos throughout different periods (flood, drought and humid) of the annual life cycle showing the possible developmental trajectories in situ. We then analyze: (i) the way in which embryos achieve survive drought from protective cortical structures (perivitelline space and egg envelope) that present dynamic changes according to the conditions to which they are exposed buffering the harmful effects of high temperatures and water loss. (ii) The nature and origin of these protective structures during the ovogenesis (cortical alveoli and zona pellucida give rise to the perivitelline space and egg envelope respectively and oil droplets represent an emergency nutritional reserve). (iii) Sexual synchronization through secretion of pheromones and the reproductive behavior that allows them to spawn under the substrate. Embryonic survival is achieved by success of simplest interactions between reproductive biology elements prior to embryo development.     

Life history strategies of annual killifish <Emphasis Type="Italic">Millerichthys robustus</Emphasis> (Cyprinodontiformes:Cynolebiidae) in a seasonally ephemeral water body in Veracruz,México

The annual life cycle of Millerichthys robustus is described from an ephemeral pool in Veracruz, Mexico. The state of the pool can be divided into three periods: a flood period lasting from September to March when the pool was filled with water, a drought period from April to June when the pool was dry, and a humid period in July and August when the pool was intermittently filled. Soil substrate was examined in each of these three periods (flood, drought and humid), embryos were found, and the stage of embryonic diapause was determined. During the flood period embryos were in diapause I; during the drought period in diapause II; and during the humid period mainly in diapause III with a small subset in diapause II (an example of a bet-hedging strategy). Two hatching periods (separated by two weeks) were documented during the beginning of the flood period. Fish growth was analyzed in both males and females, with females showing an overall slower growth rate and smaller adult size. In females, ovarian maturity was characterized histologically to understand the reproductive cycle. The onset of sexual maturity began during the third week after hatching (21 days) with the presence of secondary sexual characteristics in females and the beginning of Secondary Growth Stage in some ovarian follicles. All stages of oogenesis, postovulatory follicles and ovulated oocytes were observed from the fourth week post hatching (28 days) until death. M. robustus appears to exhibit similar patterns of embryonic diapause compared to other annual killifish living in seasonal water bodies closer to the equator. This study characterizes (for the first time) the adaptations and life cycle of M. robustus. This information could be useful to evaluate the potential risk of these populations and, if necessary, to develop plans for their conservation.     

Morphological development of the structures related to annualism in the ovarian follicle of the killifish Millerichthys robustus (Costa,1995) (Teleostei: Cyprinodontiformes)

Ovaries of five females of the annual fish teleost species Millerichthys robustus were processed, and the development of the cortical alveoli, zona pellucida and secondary envelope during oogenesis were described. We also documented the origin of the cortical alveoli in time and space similar to the Balbiani body; the synthesis of three generations of cortical alveoli and an active zona pellucida prior to vitellogenesis, which is implicated in the entry of oils to the interior of the oocyte. We found that in this species, the diameter of the alveoli is greater than in the other teleost fish species reported in the literature, except for Fundulus heteroclitus, in which the diameter is similar. The thickness of the zona pellucida recorded in M. robustus is the greatest reported to date. Likewise, two periods of secondary envelope deposition were documented: filaments during pre‐vitellogenesis and, subsequently, trapeze‐shaped projections during the maturation of the oocytes. We report about development of structures that are considered key for the survival of embryos in annual fish during the long periods of diapause in their extreme habitats. The development of peripheral structures described here probably reflects the changes in the physiology of the oocytes in M. robustus. J. Morphol. 277:1219–1230, 2016. © 2016 Wiley Periodicals, Inc.     

Embryo ecology: Developmental synchrony and asynchrony in the embryonic development of wild annual fish populations

Embryo–environment interactions are of paramount importance during the development of all organisms, and impacts during this period can echo far into later stages of ontogeny. African annual fish of the genus Nothobranchius live in temporary pools and their eggs survive the dry season in the dry bottom substrate of the pools by entering a facultative developmental arrest termed diapause. Uniquely among animals, the embryos (encased in eggs) may enter diapause at three different developmental stages. Such a system allows for the potential to employ different regulation mechanisms for each diapause. We sampled multiple Nothobranchius embryo banks across the progressing season, species, and populations. We present important baseline field data and examine the role of environmental regulation in the embryonic development of this unique system. We describe the course of embryo development in the wild and find it to be very different from the typical development under laboratory conditions. Development across the embryo banks was synchronized within and across the sampled populations with all embryos entering diapause I during the rainy season and diapause II during the dry season. Asynchrony occurred at transient phases of the habitat, during the process of habitat desiccation, and at the end of the dry season. Our findings reveal the significance of environmental conditions in the serial character of the annual fish diapauses.     

Coping with drought: diapause plasticity in katydid eggs at high,mid-, and low elevations

1. Semi-arid rangeland productivity is limited by precipitation, and yet droughts are projected to increase in frequency and duration with unknown impacts on insect populations. As some katydids prolong diapause and remain in an egg bank as a blastoderm for multiple growing seasons, is it possible that drought could prolong diapause and promote outbreaks by synchronising embryonic development and hatching of Mormon crickets, Anabrus simplex, after moisture is restored? 2. In this study, a high-elevation Wyoming population (WY) was compared with a mid-elevation Idaho (ID) and a low-elevation Oregon population (OR). It was predicted that eggs from the drier ID and OR habitats would be more tolerant of desiccation. Developmental state and water loss of eggs were measured after drought treatments, and when moisture was restored. 3. The two drier treatments had significantly more WY eggs prolonging diapause until after drought ended compared with the two wetter treatments. Whether WY eggs developed in the second or subsequent warm periods was independent of drought treatments. Significantly fewer OR embryos developed in the driest treatment compared with the others, whereas almost all ID eggs developed irrespective of the drought treatment. 4. In conclusion, Mormon crickets can delay embryonic development to improve drought tolerance. Although drought did not synchronise development and hatching, diapause plasticity allowed insects to cope and await more favourable conditions. 5. Unexpectedly, eggs from WY (the highest, wettest site) were more tolerant, because postponing development resulted in less water loss than in developed embryos. OR egg loss was also reduced by prolonging diapause, relative to ID, which developed in even the driest conditions.     

Husbandry of the Annual Killifish Austrofundulus limnaeus with Special Emphasis on the Collection and Rearing of Embryos

Annual killifish development is unique compared to other teleosts and is characterized by the dispersion and subsequent reaggregation of pre-embryonic blastomeres and the occurrence of embryonic diapause. Austrofundulus limnaeus is an excellent species to use for studies of development and embryonic diapause in annual killifish. A. limnaeus has a high fecundity, reproduces readily in a laboratory environment, and has a relatively long laboratory life span compared to many other species of annual killifish. Methods are presented for rearing A. limnaeus in the laboratory with an emphasis on collecting and incubating large numbers of embryos for biochemical and physiological studies. Females produce an average of 29 eggs during a two to four hour spawning. Egg quality (% fertilization and survival) and egg production (eggs female^-1) are affected by the number of days between spawning events. Percent fertilization of eggs and survival of embryos decreases as the interval between spawning increases from two to eight days. The number of fertile embryos produced per female remains relatively constant as a function of spawning interval. Fertilization rates may be maintained at high levels by replacing aged males (1.5 years old) with younger males. An embryo medium was formulated to mimic the natural waters inhabited by A. limnaeus. The developmental rate and survival of embryos in the embryo medium was essentially equivalent when compared to Yamamoto's fish saline solution.     

Survival of water stress in annual fish embryos: dehydration avoidance and egg envelope amyloid fibers

Diapausing embryos of Austrofundulus limnaeus survive desiccating conditions by reducing evaporative water loss. Over 40% of diapause II embryos survive 113 days of exposure to 75.5% relative humidity. An early loss of water from the perivitelline space occurs during days 1-2, but thereafter, rates of water loss are reduced to near zero. No dehydration of the embryonic tissue is indicated based on microscopic observations and the retention of bulk (freezable) water in embryos as judged by differential scanning calorimetry. Such high resistance to desiccation is unprecedented among aquatic vertebrates. Infrared spectroscopy indicates frequent intermolecular contacts via beta-sheet (14%) in hydrated egg envelopes (chorions). These beta-sheet contacts increase to 36% on dehydration of the egg envelope. Interestingly, the egg envelope is composed of protein fibrils with characteristics of amyloid fibrils usually associated with human disease. These features include a high proportion of intermolecular beta-sheet, positive staining and green birefringence with Congo red, and detection of long, unbranched fibrils with a diameter of 4-6 nm. The high resistance of diapause II embryos to water stress is not correlated with ontogenetic changes in the egg envelope.     

Embryonic development characteristics and host mussel utilization of flat bitterling <Emphasis Type="Italic">Acheilognathus rhombeus</Emphasis> (Cyprinidae) during winter in Korea

This study aimed to investigate the embryonic development characteristics and host mussel utilization of Acheilognathus rhombeus to determine its adaptations or host utilization for improving survival during winter in the wild; the study was conducted from August 2014 to May 2015. Spawning of A. rhombeus occurred between mid-September and early November, peaking between late September and early October of 2014 when the water temperature was 19–21°C. The embryos of A. rhombeus were first found in early October of 2014 and remained inside the host mussel for 7 months. Development retardation and diapause in embryonic stages (stages C and D) occurred before eye pigmentation and continued until late March of 2015. Subsequently, the embryos resumed development (stage E) when the water temperature increased to about 10 °C. The positions during the development of A. rhombeus embryos in the mussels were mainly present in the farthest suprabranchial cavity and not in the water tube. The embryos were frequently found in the two inner demibranches of the four gills of the mussels regardless of their sex. We assume that embryonic diapause and use of suprabranchial cavity and inner demibranches of the gills of the mussels by A. rhombeus might be the optimal adaptation to maintain high embryonic survival in low water temperature during winter and to avoid interspecific competition.     

怀头鲇胚胎发育过程卵膜形态结构变化及对孵化影响

采用扫描电镜和光学解剖镜,对黑龙江水域怀头鲇(Silirus soldatovi)成熟卵膜层次构造和受精卵胚胎发育过程中卵膜形态结构变化进行观察,并比较未脱黏和人工脱黏卵受精卵膜的表面超微结构变化.结果显示,受精卵膜的胶膜表面由一层薄而致密的物质组成,上有微孔构造.未脱黏受精卵膜表面胶膜光滑致密,多孔隙,内有小梁相连,随胚胎发育逐渐膨胀、展开、变薄,破膜期自然脱落.人工脱黏几乎全部脱去鱼卵的胶膜层,从而使卵失去黏性.脱去胶膜层的受精卵膜表面由不规则的颗粒状结构紧密嵌合而成,表面粗糙,胚胎发育过程中颗粒形状变化不大,但颗粒层逐渐变薄而且疏松,直至胚胎破膜而出:胚胎发育后期颗粒层有过早脱落和破洞出现.同时对活体鱼卵进行连续比较观察,讨论了卵膜结构及动态变化与孵化效果的关系.     

Intrinsic variability in the frequency of embryonic diapauses of the annual fish Nothobranchius korthausae,regulated by light:dark cycle and temperature

Synopsis The influence of the light:dark cycle and temperature on the embryonic development, especially diapause, of the annual fish Nothobranchius korthausae was investigated. The variability of the frequency of diapause II during constant L:D cycle and temperature, but at different times of the year, was also studied. In agreement with previous studies it appeared that diapause I does practically not occur in N. korthausae (and other Nothobranchius species), even under sub-optimal conditions which are known to induce diapause II and III. Only at very low temperatures, a first developmental arrest could be induced during the dispersed phase, as well as during the reaggregation phase. Diapause II and III can be induced more easily, by exposing the embryos to low (sub-optimal) temperatures and short light periods (or constant darkness). Both diapauses are inhibited or terminated at high temperature and long light periods (12L:12D). The occurrence of an indirect light:dark response via the adult fishes could not be demonstrated. At moderate temperatures and in constant darkness (or short light periods) considerable variability in diapause II-frequency was observed. This could be an intrinsic feature of annual fish development, constituting a strategy for better survival of the species.     

Oxygen consumption during embryonic development of the annual fish Nothobranchius korthausae with special reference to diapause

The oxygen consumption of Nothobranchius korthausae eggs in different developmental stages, including diapause II and III, was measured. Oxygen consumption increases exponentially during embryonic development. In diapause II and III there is a drop in oxygen consumption, which attains a minimal level in diapause II after 3 weeks and in diapause III after 2 weeks. During early development the embryos can escape from hypoxic stress by entering diapause I and II. During late embryogenesis embryos in diapause III can escape from hypoxic stress by hatching. We conclude that survival of annual fish embryos is enhanced during conditions of low oxygen concentration by reduced oxygen consumption rates during diapause.     

Effects of temperature on free‐embryonic diapause in the autumn‐spawning bitterling Acheilognathus rhombeus(Teleostei: Cyprinidae)

In bitterling Acheilognathus rhombeus , developmental arrest always occurred at stage D of the free‐embryonic phase, regardless of incubation temperature. Developmental arrest was terminated only by a cold treatment at 4° C for 60–90 days, initiated 10 days post‐hatching. After the termination of developmental arrest, free‐embryos became larvae c . 6 months after hatching, regardless of the time of initiation and duration of the cold treatment. In hybridization experiments between A. rhombeus and several species of spring‐spawning bitterlings, free‐embryos became free‐swimming larvae within 60 days after hatching in all experiments. Developmental arrest was not observed in any of the hybrids, regardless of parental sex. These results suggest that free‐embryonic diapause in A. rhombeus is not induced by environmental factors, such as cold, but by genetic factors, which are recessive to those in spring‐spawning bitterlings. Free‐embryonic diapause in A. rhombeus appears to be an adaptation to winter, which might have evolved with reproduction in autumn among autumn‐spawning bitterling species. This is the only report of free‐embryonic diapause after hatching in fishes, and only the second example of diapause in fishes, along with annual killifishes (Rivulidae).     

A possible role of 20-hydroxyecdysone in embryonic development of the silkworm Bombyx mori

It has been well established that eggs of insects, including those of the silkworm Bombyx mori, contain various ecdysteroids and the amounts of these ecdysteroids fluctuate during embryonic development. In order to know the function of egg ecdysteroids in embryonic development of B. mori, we examined the biological activities of various egg ecdysteroids by in vitro ligand-binding assay and bioassay using B. mori eggs. First, using the ecdysteroid receptor of B. mori (BmEcR-B1/BmUSP heterodimer) prepared by yeast and Escherichia coli expression systems, the interaction between the ecdysteroid receptor and various egg ecdysteroids of B. mori was analyzed. The relative binding affinities of egg ecdysteroids to the BmEcR-B1/BmUSP heterodimer decreased in the order of 20-hydroxyecdysone > 2-deoxy-20-hydroxyecdysone > 22-deoxy-20-hydroxyecdysone > ecdysone > 2-deoxyecdysone > ecdysone 22-phosphate. Next, several egg ecdysteroids of B. mori were injected into the prospective diapause eggs, which show a very low level of free ecdysteroids at the onset of embryonic diapause (gastrula stage). Approximately 7% of them (P < 0.002, chi(2)-test) developed beyond the gastrula stage without entering diapause by the injection of 20-hydroxyecdysone (25 ng/egg). In contrast, the injection of other ecdysteroids was not effective in inducing embryonic development. These results suggest that 20-hydroxyecdysone, via the ecdysteroid receptor, is responsible for the developmental difference between diapause and non-diapause in B. mori embryos. Furthermore, it was suggested that continuous supply of 20-hydroxyecdysone may be required to induce embryonic development.     

Carbohydrate metabolism and restricted oxygen supply in the eggs of the silkworm, Bombyx mori

Increased oxygen supply to diapause eggs of the silkworm (O₂-incubation) effectively prevented diapause initiation and induced the same pattern of glycogen, polyol and lactate levels as was observed in normal non-diapause eggs. Sensitivity to oxygen decreased as embryonic development proceeded. After the termination of this sensitive period, accumulation of polyols and lactate followed.Experiments were carried out to test whether changes in the oxygen permeability of the egg membranes are involved in restricting the supply of this gas to eggs at the onset of diapause. Oxygen permeability of the chorion was measured with apparatus especially designed for this purpose. Although the chorion of the diapause egg was less permeable than that of the non-diapause egg, the oxygen permeability of the chorion does not change appreciably during the early developmental stages of the diapause eggs. The changes in rate of water loss through the egg membranes were measured during the early developmental stages of the embryos. The level of water loss decreased gradually as the formation of serosal cuticle proceeded. Moreover, it was observed that the water loss up to the time of formation of serosal cuticle was closely related to the oxygen permeability of the chorion.From these results, we suggest that the formation of the serosal cuticle may be an additional cause of the restricted oxygen supply at the onset of the diapause.     

Geographic variation in embryonic diapause,cold‐hardiness and life cycles in the migratory locust Locusta migratoria (Orthoptera: Acrididae) in China

To investigate geographic adaptation of the migratory locust Locusta migratoria in China, locusts were collected from six localities, ranging from 47.4°N to 19.2°N. Using offspring from the various populations, we compared embryonic diapause, reproductive traits, cold‐hardiness and adult body size. The incidence of embryonic diapause was influenced by the genetic makeup, parental photoperiod, and incubation temperature of the eggs. The northern strain (47.4°N) produced diapause eggs under all photoperiodic conditions, whereas the other strains produced a higher proportion of diapause eggs when exposed to a short photoperiod. The incubation temperature greatly influenced diapause induction. At a low temperature, all eggs entered diapause, even some of those from a tropical strain (19.2°N) in which no diapause was induced at high temperatures. Photoperiodic changes during the parental generation affected the incidence of embryonic diapause. Diapause intensity decreased with decreasing original latitude. Cold hardiness was compared by exposing eggs in diapause to either ?10 or ?20°C for various periods; the northern strain was more cold‐hardy than the southern strain, although some eggs in the tropical strain were probably not in a state of diapause. Adult body size and head width showed a complicated pattern of variation along the latitudinal gradient, whereas egg pod size (egg pod width and egg number) and hatchling weight tended to decrease with decreasing latitude. These results reveal that L. migratoria has adapted to local environments and that the latitudinal gradient appears to play an important role in shaping L. migratoria life cycle and development.     

Temperature effects on embryonic development of Paratlanticus ussuriensis (Orthoptera: Tettigoniidae) in relation to its prolonged diapause

Paratlanticus ussuriensis eggs overwinter by entering diapause, which can be prolonged to more than 1 year depending on environmental conditions. To determine temperature effects on diapause duration of P. ussuriensis eggs, the rates of embryonic development and hatching were compared at various temperatures conditions by measuring embryonic stages and egg weights. Most eggs stayed in a very young stage (blastoderm formation, stage 4) when reared at 15 and 20 °C, 10–30% eggs developed into middle or late stages when reared at 25 °C, and most embryos developed fully (stage 23/24) when reared at 30 °C. Egg weight at 30 °C was 1.5 times higher than those reared at 20 °C. Chilling induced hatching in embryos at stage 23/24. Chilling caused stage 4 embryos to develop into stage 24, but they failed to hatch in response to a second warm period. Thus, P. ussuriensis eggs can overwinter either as young embryos (initial diapause) or as fully-developed embryos (final diapause). Eggs that experience an initial diapause overwinter again the second year in a final stage diapause. The post-diapause period was shorter when embryos overwintered in a final stage diapause. The hatching rate was highest in a temperature range of 7.5–15 °C. Our results suggest that temperature is an important environmental factor for the control of prolonged diapause in P. ussuriensis and initial diapause plays an important role in the control of its life cycle.     

Oviposition cycle in the oviparous fish Xenopoecilus sarasinorum

To clarify the reproduction of the oviparous teleost Xenopoecilus sarasinorum, changes in oocyte composition and oviposition cycle were investigated. After release, a batch of spawned eggs hung from the urogenital pore by attaching filaments (36.3+/-0.8 in number, n=31; about 4.3-7.8 mm in length, 5-8 microm in diameter) on the chorion (egg envelope) in the vegetal pole region. Females accommodated a cluster of fertilized eggs in a belly concavity until the embryos hatched. Hatching of embryos took place from 18-19 days after oviposition (25 degrees C). Between 0-2 days following hatching, the attaching filaments disappeared from the urogenital pore. Between 3 and 4 days following hatching, most of the females spawned again. The growth of oocytes proceeded slowly throughout the period when the egg cluster was carried in the belly, and no ovulation occurred during this period. If the current brood was accidentally lost, the day of the next oviposition was sooner. This might imply that carrying embryos in the belly affects endocrine activity, as in viviparous reproduction.     

Embryo of an annual fish (Austrolebias charrua) in the last dormancy stage,diapause III

Embryo of an annual fish (Austrolebias charrua) in the last dormancy stage, diapause III. The embryo, surrounded by a transparent vitelline envelope, is in the pre‐hatching stage. A prominent eye and part of the pigmented body and tail are apparent. Why annual fishes? Annual fishes (Order Cyprinodontiformes) are a special kind of teleost, found in Africa and South America, with developmental strategies closely related to their life cycle. These fishes inhabit temporary pools that undergo drying during summer, when all adults die. The embryos remain buried in the bottom mud and are resistant to desiccation. In the subsequent rainy season they hatch a few hours after the pool is flooded and a new reproductive cycle begins. This developmental pattern is characterized by the presence of a unique stage between cleavage and embryogenesis, dispersion‐aggregation of blastomeres and because the embryos show reversible developmental arrests (diapauses) at different stages. Annual fish embryos are transparent, large, hardy and easy to maintain in the laboratory. Adults show continuous production of eggs and juveniles reach sexual maturity a few weeks after hatching (an unusual condition in fishes). Their particular developmental features confer unique opportunities for research on cell behavior during early development, the effect of environmental factors on development, the regulation of diapauses and the mechanisms involved in sex determination, among others topics. Image provided by Nibia Berois, Universidad de la República, Montevideo, Uruguay.     

The plurennial life cycles of the European Tettigoniidae (Insecta: Orthoptera)

Summary The effect of drought on embryonic development and on hatching was studied in 13 European Tettigoniidae species. Drought can affect development in three different ways: (1) Embryonic development proceeds slower than if the eggs are in contact with water; (2) it stops (for final diapause) in an earlier embryonic stage; (3) it affects maintenance and termination of the initial embryonic diapause.In many Tettigoniidae species, the initial diapause is prolonged, and may last several years. Without draught stress, between 1 and 7 cold treatments in the laboratory, and with eggs of the Tettigonia-species between 1 and 6 winters in the field were necessary to enable all eggs to complete initial diapause. In Central European species, the number of eggs maintaining initial diapause significantly increased when the eggs had no contact with water at the time when they should recover from diapause. In contrast, termination of initial diapause in Tettigonia caudata from Greece, when the environment became favorable for growth again, was highest in that group of eggs that had lost most water in a preceding period of drought. The importance of the prolonged initial diapause for the survival of unpredictable adverse conditions is discussed.