Correction: Size does matter—the eco-evolutionary effects of changing body size in fish

Size does matter — the eco-evolutionary effects of changing body size in fish

Body size acts as a proxy for many fitness-related traits. Body size is also subject to directional selection from various anthropogenic stressors such as increasing water temperature, decreasing dissolved oxygen, fisheries, as well as natural predators. Changes in individual body size correlate with changes in fecundity, behaviour, and survival and can propagate through populations and ecosystems by truncating age and size structures and changing predator–prey dynamics. In this review, we will explore the causes and consequences of changing body size in fish in the light of recent literature and relevant theories. We will investigate the central role of body size in ecology by first discu…

Are there plenty of fish in the sea? How life history traits affect the eco-evolutionary consequences of population oscillations

Understanding fish population oscillations is important for both fundamental population biology and for fisheries science. Much research has focused on the causes of population oscillations, but the eco-evolutionary consequences of population oscillations are unclear. Here, we used an empirically parametrised individual-based simulation model to explore the consequences of oscillations with different amplitudes and wavelengths. We show that oscillations with a wavelength shorter than the maximum lifespan of the fish produce marked differences in the evolutionary trajectories of asymptotic length. Wavelengths longer than the maximum lifespan of the fish, in turn, mainly manifest as ecologica…

Pathways towards a sustainable future envisioned by early-career conservation researchers

Scientists have warned decision-makers about the severe consequences of the global environmental crisis since the 1970s. Yet ecological degradation continues and little has been done to address climate change. We investigated early-career conservation researchers' (ECR) perspectives on, and prioritization of, actions furthering sustainability. We conducted a survey (n = 67) and an interactive workshop (n = 35) for ECR attendees of the 5th European Congress of Conservation Biology (2018). Building on these data and discussions, we identified ongoing and forthcoming advances in conservation science. These include increased transdisciplinarity, science communication, advocacy in conservati…

Age is not just a number—Mathematical model suggests senescence affects how fish populations respond to different fishing regimes

Abstract Senescence is often described as an age‐dependent increase in natural mortality (known as actuarial senescence) and an age‐dependent decrease in fecundity (known as reproductive senescence), and its role in nature is still poorly understood. Based on empirical estimates of reproductive and actuarial senescence, we used mathematical simulations to explore how senescence affects the population dynamics of Coregonus albula, a small, schooling salmonid fish. Using an empirically based eco‐evolutionary model, we investigated how the presence or absence of senescence affects the eco‐evolutionary dynamics of a fish population during pristine, intensive harvest, and recovery phases. Our si…

Age is not just a number : Mathematical model suggests senescence affects how fish populations respond to different fishing regimes

Senescence is often described as an age-dependent increase in natural mortality (known as actuarial senescence) and an age-dependent decrease in fecundity (known as reproductive senescence), and its role in nature is still poorly understood. Based on empirical estimates of reproductive and actuarial senescence, we used mathematical simulations to explore how senescence affects the population dynamics of Coregonus albula, a small, schooling salmonid fish. Using an empirically based eco-evolutionary model, we investigated how the presence or absence of senescence affects the eco-evolutionary dynamics of a fish population during pristine, intensive harvest, and recovery phases. Our simulation …

Age is not just a number – senescence affects how fish populations respond to different fishing regimes

Abstract The presence of senescence in natural populations remains an unsolved problem in biology. Described as an age-dependent increase in natural mortality (known as actuarial senescence) and an age-dependent decrease in fecundity (known as reproductive senescence), the role of senescence in nature is still poorly understood. Based on empirical estimates of reproductive and actuarial senescence, we explored how senescence affects the population dynamics of Coregonus albula, a small, schooling salmonid fish. Using an empirically-based eco-evolutionary model, we investigated how the presence or absence of senescence affects how the fish population responds to pristine, intensive harvest, a…

Aquatic ecosystems in change: capturing the impacts of fishing and environmental stressors by utilising ecological network theory

Understanding how wild populations respond to multiple environmental stressors, and how they recover following depletion, is fundamental to conservation biology and the sustainable use of resources. Fisheries represent a major scale system of human-induced mortality in natural populations (1). The theory of density-dependent population growth suggests that at a low abundance populations should grow at a fast rate, yet in reality many stocks fail to recover even after large reductions in fishing pressure (2). The freshwater salmonid vendace (Coregonus albula), is an important target of freshwater fisheries in the Nordic countries. Here, we will utilise the Allometric Trophic Network (ATN) mo…

An assessment of juvenile Atlantic cod Gadus morhua distribution and growth using diver operated stereo-video surveys

While the relatively infamous Atlantic cod (Gadus morhua) fisheries have recovered in some areas, the cod fishery in the Firth of Clyde on the west coast of Scotland remains depleted. The role of juvenile fish survival in determining the future cohort sizes is important, yet the key habitats for juvenile marine fishes in the U.K. have received little attention. Many juvenile fish inhabit shallow coastal areas, where the monitoring of fish is not possible using fisheries dependent methods. Here, we conducted 31 stereo-video scuba transects during daylight hours from June to September 2013 within a proposed marine protected area (MPA) in the Firth of Clyde. More juvenile Atlantic cod Gadus mo…