Precocious Sperm Exchange in the Simultaneously Hermaphroditic Nudibranch, Berghia stephanieae.

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2022-08-01 eCollection Date: 2022-01-01 DOI:10.1093/iob/obac034
Neville F Taraporevala, Maryna P Lesoway, Jessica A Goodheart, Deirdre C Lyons
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引用次数: 6

Abstract

Sexual systems vary greatly across molluscs. This diversity includes simultaneous hermaphroditism, with both sexes functional at the same time. Most nudibranch molluscs are thought to be simultaneous hermaphrodites, but detailed studies of reproductive development and timing remain rare as most species cannot be cultured in the lab. The aeolid nudibranch, Berghia stephanieae, is one such species that can be cultured through multiple generations on the benchtop. We studied B. stephanieae reproductive timing to establish when animals first exchange sperm and how long sperm can be stored. We isolated age- and size-matched individuals at sequential timepoints to learn how early individuals can exchange sperm. Individuals isolated at 10 weeks post initial feeding (wpf; ∼13 weeks postlaying [wpl]) can produce fertilized eggs. This is 6 weeks before animals first lay egg masses, indicating that sperm exchange occurs well before individuals are capable of laying eggs. Our results indicate that male gonads become functional for animals between 6 mm (∼6 wpf, ∼9 wpl) and 9 mm (∼12 wpf, ∼15 wpl) in length. That is much smaller (and sooner) than the size (and age) of individuals at first laying (12-19 mm; ∼16 wpf, ∼19 wpl), indicating that male and female functions do not develop simultaneously. We also tracked the number of fertilized eggs in each egg mass, which remained steady for the first 10-15 egg masses, followed by a decline to near-to-no fertilization. This dataset provides insights into the precise timing of the onset of functionality of the male and female reproductive systems in B. stephanieae. These data contribute to a broader understanding of reproductive development and the potential for understanding the evolution of diverse sexual systems in molluscs.

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同时雌雄同体裸鳃藓属植物的早熟精子交换。
软体动物的性系统差别很大。这种多样性包括同时雌雄同体,即两性同时发挥作用。大多数裸鳃软体动物被认为是同时雌雄同体,但由于大多数物种无法在实验室中培养,因此对生殖发育和时间的详细研究仍然很少。绿僵菌属(Berghia stephanieae)就是这样一种可以在工作台上培养多代的物种。我们研究了金鸡的生殖时间,以确定动物第一次交换精子的时间和精子可以储存多长时间。我们在连续的时间点分离出年龄和体型匹配的个体,以了解早期个体如何交换精子。初始饲喂后10周分离个体(wpf;产后~ 13周[wpl])可以产生受精卵。这是动物第一次产卵前6周,表明精子交换在个体能够产卵之前就发生了。我们的研究结果表明,雄性性腺在长度为6 mm (~ 6 wpf, ~ 9 wpl)和9 mm (~ 12 wpf, ~ 15 wpl)的动物中具有功能。这比个体第一次产卵的尺寸(和年龄)要小得多(也快得多)(12-19毫米;~ 16 wpf, ~ 19 wpl),表明男性和女性的功能不会同时发育。我们还追踪了每个卵团中受精卵的数量,在最初的10-15个卵团中,受精卵数量保持稳定,随后下降到几乎没有受精。该数据集提供了对stephanieae中雄性和雌性生殖系统功能开始的精确时间的见解。这些数据有助于更广泛地理解生殖发育,并有助于理解软体动物不同性系统的进化。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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