G5 Doctoral dissertation (article)
The interplay between fish life-history traits, population dynamics, and ecosystems (2021)
Kalojen elinkierto-ominaisuuksien, populaatiodynamiikan ja ekosysteemin vuorovaikutus
Ahti, P. A. (2021). The interplay between fish life-history traits, population dynamics, and ecosystems [Doctoral dissertation]. University of Jyväskylä. JYU Dissertations, 464. http://urn.fi/URN:ISBN:978-951-39-8949-1
JYU authors or editors
Publication details
All authors or editors: Ahti, Pauliina A.
eISBN: 978-951-39-8949-1
Journal or series: JYU Dissertations
eISSN: 2489-9003
Publication year: 2021
Number in series: 464
Number of pages in the book: 1 verkkoaineisto (51 sivua, 30 sivua useina numerointijaksoina)
Publisher: University of Jyväskylä
Place of Publication: Jyväskylä
Publication country: Finland
Publication language: English
Persistent website address: http://urn.fi/URN:ISBN:978-951-39-8949-1
Publication open access: Openly available
Publication channel open access: Open Access channel
Abstract
Aquatic ecosystems are going through an unprecedented decline in biodiversity. This is clearly reflected in the phenomenal declines in fisheries catches and collapses of many fish populations. Different levels of biological organisation interact in complex ways, and changes in fish life-history traits are reflected at population and ecosystem levels. However, the mechanisms behind those interactions are not well understood, and some interactions are completely unknown. This work uses mathematical modelling to explore how senescence, an often-ignored life-history trait affects fish population dynamics and response to fishing. Simulations demonstrate that senescence leads to evolutionary trajectory towards declining asymptotic length and population response to different fishing selection regimes depends on the presence of senescence. The link from population dynamics to life-history evolution is explored through population oscillations. Mathematical simulations show that oscillation wavelength shorter than the maximum lifespan of the fish produce marked differences in the evolution of asymptotic length. Wavelengths longer than the maximum lifespan in turn manifest in ecological effects seen as biomass fluctuations. The combination of the length and amplitude of the oscillation wave determine the direction of the change. Finally, the link between a single species and ecosystem is explored by introducing an invasive species in a food web model. The invasive species sets off a bottom-up effect seen in the decline of biomass. This effect propagates through all trophic levels in the model, including top predator fishes. These findings illuminate some previously unknown or poorly understood links between different levels of biological organisation that will help us better manage and conserve the aquatic nature.
Keywords: fishes; life cycle (natural science); fish populations; population dynamics; population dynamics; aquatic ecosystems; food webs; fishery; fishing; introduced species; doctoral dissertations
Free keywords: eco-evolutionary dynamics; food web; invasive species; life-history; population fluctuations; senescence; trade-offs
Contributing organizations
Ministry reporting: Yes
Reporting Year: 2021