Your search keyword '"Lagisz M."' showing total 7 results

1. Plant Silicon Defences Suppress Herbivore Performance, but Mode of Feeding Is Key.

Author

Johnson SN, Waterman JM, Hartley SE, Cooke J, Ryalls JMW, Lagisz M, and Nakagawa S

Subjects

Animals, Arthropods physiology, Feeding Behavior, Invertebrates physiology, Plants metabolism, Vertebrates physiology, Herbivory, Silicon metabolism

Abstract

The performance of herbivorous animals depends on the nutritional and defensive traits of the plants they consume. The uptake and deposition of biogenic silicon in plant tissues is arguably the most basic and ubiquitous anti-herbivore defence used by plants, especially grasses. We conducted meta-analyses of 150 studies reporting how vertebrate and invertebrate herbivores performed when feeding on silicon-rich plants relative to those feeding on low-silicon plants. Silicon levels were 52% higher and 32% more variable in silicon-rich plants compared to plants with low silicon, which resulted in an overall 33% decline in herbivore performance. Fluid-feeding herbivore performance was less adversely impacted (-14%) than tissue-chewing herbivores, including mammals (-45%), chewing arthropods (-33%) and plant-boring arthropods (-39%). Fluid-feeding arthropods with a wide diet breadth or those feeding on perennial plant species were mostly unaffected by silicon defences. Unlike many other plant defences, where diet specialisation often helps herbivores overcome their effects, silicon negatively impacts chewing herbivores regardless of diet breadth. We conclude that silicon defences primarily target chewing herbivores and impact vertebrate and invertebrate herbivores to a similar degree., (© 2024 The Author(s). Ecology Letters published by John Wiley & Sons Ltd.)

Published

2024

2. Species sensitivities to artificial light at night: A phylogenetically controlled multilevel meta-analysis on melatonin suppression.

Author

Yang Y, Liu Q, Pan C, Chen J, Xu B, Liu K, Pan J, Lagisz M, and Nakagawa S

Subjects

Humans, Animals, Light Pollution, Light, Lighting, Animals, Wild, Mammals, Melatonin

Abstract

The rapid urbanization of our world has led to a surge in artificial lighting at night (ALAN), with profound effects on wildlife. Previous research on wildlife's melatonin, a crucial mechanistic indicator and mediator, has yielded inconclusive evidence due to a lack of comparative analysis. We compiled and analysed an evidence base including 127 experiments with 437 observations across 31 wild vertebrates using phylogenetically controlled multilevel meta-analytic models. The evidence comes mainly from the effects of white light on melatonin suppression in birds and mammals. We show a 36% average decrease in melatonin secretion in response to ALAN across a diverse range of species. This effect was observed for central and peripheral melatonin, diurnal and nocturnal species, and captive and free-living populations. We also reveal intensity-, wavelength-, and timing-dependent patterns of ALAN effects. Exposure to ALAN led to a 23% rise in inter-individual variability in melatonin suppression, with important implications for natural selection in wild vertebrates, as some individuals may display higher tolerance to ALAN. The cross-species evidence has strong implications for conservation of wild populations that are subject to natural selection of ALAN. We recommend measures to mitigate harmful impacts of ALAN, such as using 'smart' lighting systems to tune the spectra to less harmful compositions., (© 2024 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2024

3. The impact of rising temperatures on the prevalence of coral diseases and its predictability: A global meta-analysis.

Author

Burke S, Pottier P, Lagisz M, Macartney EL, Ainsworth T, Drobniak SM, and Nakagawa S

Subjects

Animals, Temperature, Prevalence, Coral Reefs, Climate Change, Anthozoa physiology

Abstract

Coral reefs are under threat from disease as climate change alters environmental conditions. Rising temperatures exacerbate coral disease, but this relationship is likely complex as other factors also influence coral disease prevalence. To better understand this relationship, we meta-analytically examined 108 studies for changes in global coral disease over time alongside temperature, expressed using average summer sea surface temperature (SST) and cumulative heat stress as weekly sea surface temperature anomalies (WSSTAs). We found that both rising average summer SST and WSSTA were associated with global increases in the mean and variability in coral disease prevalence. Global coral disease prevalence tripled, reaching 9.92% in the 25 years examined, and the effect of 'year' became more stable (i.e. prevalence has lower variance over time), contrasting the effects of the two temperature stressors. Regional patterns diverged over time and differed in response to average summer SST. Our model predicted that, under the same trajectory, 76.8% of corals would be diseased globally by 2100, even assuming moderate average summer SST and WSSTA. These results highlight the need for urgent action to mitigate coral disease. Mitigating the impact of rising ocean temperatures on coral disease is a complex challenge requiring global discussion and further study., (© 2023 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2023

4. A robust and readily implementable method for the meta-analysis of response ratios with and without missing standard deviations.

Author

Nakagawa S, Noble DWA, Lagisz M, Spake R, Viechtbauer W, and Senior AM

Subjects

Bias, Research Design

Abstract

The log response ratio, lnRR, is the most frequently used effect size statistic for meta-analysis in ecology. However, often missing standard deviations (SDs) prevent estimation of the sampling variance of lnRR. We propose new methods to deal with missing SDs via a weighted average coefficient of variation (CV) estimated from studies in the dataset that do report SDs. Across a suite of simulated conditions, we find that using the average CV to estimate sampling variances for all observations, regardless of missingness, performs with minimal bias. Surprisingly, even with missing SDs, this simple method outperforms the conventional approach (basing each effect size on its individual study-specific CV) with complete data. This is because the conventional method ultimately yields less precise estimates of the sampling variances than using the pooled CV from multiple studies. Our approach is broadly applicable and can be implemented in all meta-analyses of lnRR, regardless of 'missingness'., (© 2022 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2023

5. Transgenerational effects of obesogenic diets in rodents: A meta-analysis.

Author

Anwer H, Morris MJ, Noble DWA, Nakagawa S, and Lagisz M

Subjects

Animals, Diet, High-Fat adverse effects, Female, Obesity genetics, Pregnancy, Rodentia, Metabolic Syndrome genetics, Metabolic Syndrome veterinary, Obesity veterinary, Prenatal Exposure Delayed Effects metabolism, Prenatal Exposure Delayed Effects veterinary

Abstract

Obesity is a major health condition that affects millions worldwide. There is an increased interest in understanding the adverse outcomes associated with obesogenic diets. A multitude of studies have investigated the transgenerational impacts of maternal and parental obesogenic diets on subsequent generations of offspring, but results have largely been mixed. We conducted a systematic review and meta-analysis on rodent studies to elucidate how obesogenic diets impact the mean and variance of grand-offspring traits. Our study focused on transgenerational effects (i.e., F2 and F3 generations) in one-off and multigenerational exposure studies. From 33 included articles, we obtained 407 effect sizes representing pairwise comparisons of control and treatment grand-offspring groups pertaining to measures of body weight, adiposity, glucose, insulin, leptin, and triglycerides. We found evidence that male and female grand-offspring descended from grandparents exposed to an obesogenic diet displayed phenotypes consistent with metabolic syndrome, especially in cases where the obesogenic diet was continued across generations. Further, we found stronger evidence for the effects of grand-maternal than grand-paternal exposure on grand-offspring traits. A high-fat diet in one-off exposure studies did not seem to impact phenotypic variation, whereas in multigenerational exposure studies it reduced variation in several traits., (© 2021 World Obesity Federation.)

Published

2022

6. The jury is still out regarding the generality of adaptive 'transgenerational' effects.

Author

Sánchez-Tójar A, Lagisz M, Moran NP, Nakagawa S, Noble DWA, and Reinhold K

Abstract

A recent meta-analysis concluded, 'transgenerational effects are widespread, strong and persistent'. We identify biases in the literature search, data and analyses, questioning that conclusion. Re-analyses indicate few studies actually tested transgenerational effects - making it challenging to disentangle condition-transfer from anticipatory parental effects, and providing little insight into the underlying mechanisms., (© 2020 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2020

7. Transgenerational effects of caloric restriction on appetite: a meta-analysis.

Author

Lagisz M, Blair H, Kenyon P, Uller T, Raubenheimer D, and Nakagawa S

Subjects

Animals, Dietary Fats, Female, Maternal Nutritional Physiological Phenomena, Pregnancy, Prenatal Exposure Delayed Effects, Rats, Rats, Sprague-Dawley, Rats, Wistar, Appetite physiology, Caloric Restriction, Eating physiology, Lactation physiology

Abstract

Maternal undernutrition can result in significant alterations to the post-natal offspring phenotype, including body size and behaviour. For example, maternal food restriction has been implicated in offspring hyperphagia, potentially causing increased weight gain and fat accumulation. This could result in obesity and other adverse long-term health effects in offspring. We investigated the link between maternal caloric restriction during gestation and offspring appetite by conducting the first meta-analysis on this topic using experimental data from mammalian laboratory models (i.e. rats and mice). We collected 89 effect sizes from 35 studies, together with relevant moderators. Our analysis revealed weak and statistically non-significant overall effect on offspring's appetite. However, we found that lower protein content of restricted diets is associated with higher food intake in female offspring. Importantly, we show that a main source of variation among studies arises from whether, and how, food intake was adjusted for body mass. This probably explains many of the contradictory results in the field. Based on our results, we recommend using allometric scaling of food intake to body mass in future studies., (© 2014 The Authors. obesity reviews © 2014 International Association for the Study of Obesity.)

Published

2014