期刊: FUNCTIONAL ECOLOGY, 2022; 36 (3)
1. Recent studies suggest that changes in leaf traits due to interactions between plants affect resource utilisation by herbivores, as well as herbivo......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (1)
To understand ecosystems, an integrative approach combining functional ecology and community ecology is required. Nutrient cycling is a good example s......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (4)
1. Plants leave legacy effects in the soil they grow in, which can drive important vegetation processes, including productivity, community dynamics an......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (8)
Parasites can indirectly affect ecosystem function by altering host phenotype, but the trait-mediated impacts of parasitism at an ecosystem level rema......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (8)
Variation in leaf functional traits along environmental gradients can reveal how vascular epiphytes respond to broad- and small-scale environmental gr......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (10)
According to diet-regulation hypotheses, animals select food to regulate the intake of macronutrients or maximise energy feeding efficiency. Specifica......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (11)
1. Melanins are the most common pigments in vertebrates and, as such, fufill multiple adaptive functions, including honest signalling. This is the cas......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (12)
Environmental filters-including those resulting from biotic interactions-play a crucial role during the assembly of ecological communities. The import......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (1)
The success of genetically depauperate populations in the face of environmental change is contrary to the expectation that high genetic diversity is r......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (8)
Drought is expected to increase in future climate scenarios. Although responses to drought of individual functional traits are relatively well-known, ......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (9)
Understanding of plant hydraulic strategies (i.e. the degree of iso-/anisohydricity) is crucial to predict the response of plants to changing environm......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (9)
Climate warming may alter predator-prey interactions and predator feeding behaviour due to increased metabolic demands. How predators meet these incre......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (1)
1. Shifts in microbial communities and their functioning in response to environmental change result from contemporary interspecific and intraspecific ......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (3)
1. Maternal effects allow offspring to cope with rapidly changing environments. While the immediate effects of long-term climate warming and nitrogen ......
期刊: FUNCTIONAL ECOLOGY, 2022; 36 (4)
1. There is increasing evidence to show that the environment experienced by fathers can have intergenerational paternal effects on the phenotype of of......
