Postcopulatory Sexual Selection and the Evolution of Male Pregnancy in the Gulf Pipefish

Paczolt, Kimberly

2012 May 1900

Male pregnancy is a complex and energetically costly form of male parental care found exclusively in the fish family Syngathidae, which includes pipefishes, seahorses, and seadragons. The novelty of the male brood pouch raises questions about how this trait evolved and what role it plays in sexual selection. One possibility is that brood pouch evolution was partially shaped by postcopulatory sexual selection. We used the sexually dimorphic Gulf pipefish, Syngnathus scovelli, to test for postcopulatory sexual selection within broods and tradeoffs between successive male pregnancies as a function of female attractiveness. Offspring survivorship within a pregnancy was affected by the size of a male's mate, the number of eggs transferred, and the male's mating history. These results indicate the males invest more resources into broods from large, attractive mates to the detriment of future broods. Next, we investigated the effects of food limitation on male parental care strategies. Our data suggests that male Gulf pipefish sacrifice investment in future reproduction, via somatic growth, in favor of current reproduction. A positive relationship between number of failed eggs and male growth rate in our low-food treatments suggests that males may derive an energetic benefit from unsuccessful eggs in the brood pouch. Finally, we used a paired design, to investigate the effect of perceived female attractiveness on offspring survivorship. We found that, in general, males prefer the largest female available. Within a replicate, we found that the male that preferred their mate more, regardless of stimulus female size, also had higher offspring survivorship in the resulting brood. This result is exciting because it shows not only that cryptic male choice affects offspring survivorship in Gulf pipefish but also that mate preference can have a prolonged effect on an individual’s reproductive success. Ultimately, our data suggests that the evolution of the brood pouch has produced a trait that not only nurtures the offspring but also exert cryptic male choice.

male pregnancy

postcopulatory sexual selection

differential allocation

parental care

brood reduction

Influence of Mate Quality on Reproductive Decisions in a Fish with Paternal Care

Kolm, Niclas

January 2003

<p>Female reproductive decisions have been suggested to be highly influenced by mate quality. I have studied whether offspring quality may be adjusted by females to match the attractiveness of males and how strong control females have over their reproductive investment focusing on egg size. This was done in the Banggai cardinalfish (Pterapogon kauderni), a sex-role reversed obligate paternal mouthbrooder where males invest heavily into reproduction. As this species is suitable for both laboratory experiments and field studies it is an ideal candidate for the study of reproductive investment. </p><p>Mating was size-assortative and both males and females benefited from pairing with large partners. However, male size determined the reproductive output of a pair. Females courted large males more intensively and produced larger, but not fewer eggs when mated to large males as compared to small males. Further, this matching of egg size to mate attractiveness may be fast. Female courtship behaviours contained honest information regarding both clutch weight and egg maturity, traits that may be highly important for male mate choice. Surprisingly, males played an important part in territory defence suggesting relatively equal sex-roles in this species. Also, this species showed stable group structures which may be important for the evolution of female plasticity in reproductive investment due to high variance in quality of available mates. </p><p>This thesis suggest that females have a remarkable control over their reproductive investments and that male quality may be highly influential on reproductive decisions regarding offspring quality. Furthermore, it suggest that sexual selection may have strong effects on the evolution of egg size and parental care on a whole.</p>

Ecology

sexual selection

differential allocation

evolution of egg size and parental care

Ekologi

Terrestisk, limnisk och marin ekologi

Influence of Mate Quality on Reproductive Decisions in a Fish with Paternal Care

Kolm, Niclas

January 2003

Female reproductive decisions have been suggested to be highly influenced by mate quality. I have studied whether offspring quality may be adjusted by females to match the attractiveness of males and how strong control females have over their reproductive investment focusing on egg size. This was done in the Banggai cardinalfish (Pterapogon kauderni), a sex-role reversed obligate paternal mouthbrooder where males invest heavily into reproduction. As this species is suitable for both laboratory experiments and field studies it is an ideal candidate for the study of reproductive investment. Mating was size-assortative and both males and females benefited from pairing with large partners. However, male size determined the reproductive output of a pair. Females courted large males more intensively and produced larger, but not fewer eggs when mated to large males as compared to small males. Further, this matching of egg size to mate attractiveness may be fast. Female courtship behaviours contained honest information regarding both clutch weight and egg maturity, traits that may be highly important for male mate choice. Surprisingly, males played an important part in territory defence suggesting relatively equal sex-roles in this species. Also, this species showed stable group structures which may be important for the evolution of female plasticity in reproductive investment due to high variance in quality of available mates. This thesis suggest that females have a remarkable control over their reproductive investments and that male quality may be highly influential on reproductive decisions regarding offspring quality. Furthermore, it suggest that sexual selection may have strong effects on the evolution of egg size and parental care on a whole.

Ecology

sexual selection

differential allocation

evolution of egg size and parental care

Ekologi

Terrestisk, limnisk och marin ekologi

Body size, reproduction and size-selective harvesting

Uusi-Heikkilae, Silva

08 August 2012

Die Körpergröße ist von großer Bedeutung für die Fitness vieler Tiere, weil sie positiv mit Überleben und Reproduktionserfolg korreliert ist. Große Rogner vieler Fischarten sind fruchtbarer und produzieren Nachkommen von höherer Qualität verglichen mit kleineren Weibchen. Auch für Milchner einiger Fischarten wurde ein Einfluss der Körpergröße auf frühe Lebensstadien nachgewiesen. Der größenabhängige paternale Effekt verglichen mit maternalen Effekten ist weniger gut untersucht. Das Verständnis der Variation im Reproduktionserfolg als Funktion der Körpergröße der Laicher ist wichtig, weil die Fischerei die Durchschnittsgröße des Laicherbestands reduziert. In vorliegender Dissertation wurden in Laborversuchen an Zebrafischen (Danio rerio) größenabhängige paternale und maternale Effekte auf den Reproduktionserfolg und die Auswirkungen größenselektiver Entnahme auf Körperlänge, Reifung und Reproduktionserfolg untersucht. Die Köperlänge und Kondition waren wichtige Determinanten der Reifung bei Zebrafischen. Größere Rogner zeigten höheren Reproduktionserfolg als kleinere Fische und ein signifikanter Einfluss der Milchnerkörperlänge auf die frühen Lebensstadien ihrer Nachkommen wurde dokumentiert. Längere Männchen wurden von Rognern auch bei der Paarung bevorzugt. Die größenabhängigen maternalen und paternalen Effekte waren ausschlaggebend für den erhöhten Reproduktionserfolg von Zebrafischlaichbeständen, die, verglichen mit kleinen Laichern, aus großen oder zufällig zusammengesetzten Individuen zusammengesetzt waren. Die größenselektive Entnahme führte zu phänotypischen und genetischen Veränderungen, die nach Einstellung der experimentellen Befischung persistierten. Das deutet an, dass die durch die Fischerei ausgelöste Evolution schwierig umkehrbar sein könnte. Die Köpergröße ist von überragender Bedeutung in der Reproduktionsbiologie des Zebrafisches und der Schutz großer Laichfische kann wichtig für den Erhalt der Reproduktionskapazität von befischten Beständen sein. / Body size is a fundamentally important trait for fitness in many animal species because it correlates positively with survival and reproductive success. In many fish species, large females exhibit higher fecundity and produce higher quality offspring compared to small females. Similarly, male body size can affect offspring quality and early life-history traits but the importance of these effects to the reproductive biology of fish is poorly studied. The extent to which variation in reproductive success is explained by parental body size is an important research topic because size-selective fishing usually reduces the average size of reproducing adults in a population. In my dissertation, I studied the parental size effects on reproductive success in a model species (zebrafish, Danio rerio). I also studied the effects of size-selective harvesting on body size, maturation and reproductive output. Body size and condition factor were important determinants of the initiation of maturation in zebrafish. Large females were found to have higher reproductive success compared to small females and a significant effect of male body size on early life-history traits was documented. I found that large males were also favored by the females resulting to differential allocation of reproductive resources toward large males. The maternal- and paternal-size effects ultimately led to elevated reproductive success of experimental spawning stocks consisting of large or random-sized individuals compared to spawning stocks consisting of small individuals. Size-selective harvesting induced rapid phenotypic and genetic changes, which persisted after selection was halted. This suggests that fishing-induced changes might be hard to reverse. My results emphasize the importance of body size to the reproductive biology of zebrafish and suggest that protecting large fish might be important to maintain the reproductive potential of exploited fish stocks.

Partnerwahl

Körpergrößen

Reproduktionserfolg

maternale Effekte

paternale Effekte

Reifung

differentielle Allokation

größenabhängige Entnahme

Zebrafisch

(Danio rerio)

maturation

mate choice

Body size

reproductive success

maternal effect

paternal effect

differential allocation

size-selective harvesting

zebrafish (Danio rerio)

630 Landwirtschaft, Veterinärmedizin

39 Landwirtschaft, Garten

ZD 40000

ddc:630