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Abstract

Seasonal recurrence of biological processes (phenology) and its relationship to environmental change is recognized as being of key scientific and public concern, but its current study largely overlooks the extent to which phenology is based on biological time-keeping mechanisms. We highlight the relevance of physiological and neurobiological regulation for organisms' responsiveness to environmental conditions. Focusing on avian and mammalian examples, we describe circannual rhythmicity of reproduction, migration and hibernation, and address responses of animals to photic and thermal conditions. Climate change and urbanization are used as urgent examples of anthropogenic influences that put biological timing systems under pressure. We furthermore propose that consideration of Homo sapiens as principally a 'seasonal animal' can inspire new perspectives for understanding medical and psychological problems.

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Two decades of urban climate research: a review of turbulence, exchanges of energy and water, and the urban heat island

A. Arnfield (2003)

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Biological consequences of global warming: is the signal already apparent?

Lesley Hughes (2000)

Increasing greenhouse gas concentrations are expected to have significant impacts on the world's climate on a timescale of decades to centuries. Evidence from long-term monitoring studies is now accumulating and suggests that the climate of the past few decades is anomalous compared with past climate variation, and that recent climatic and atmospheric trends are already affecting species physiology, distribution and phenology.

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Rapid changes in flowering time in British plants.

A. FITTER, R Fitter (2002)

The average first flowering date of 385 British plant species has advanced by 4.5 days during the past decade compared with the previous four decades: 16% of species flowered significantly earlier in the 1990s than previously, with an average advancement of 15 days in a decade. Ten species (3%) flowered significantly later in the 1990s than previously. These data reveal the strongest biological signal yet of climatic change. Flowering is especially sensitive to the temperature in the previous month, and spring-flowering species are most responsive. However, large interspecific differences in this response will affect both the structure of plant communities and gene flow between species as climate warms. Annuals are more likely to flower early than congeneric perennials, and insect-pollinated species more than wind-pollinated ones.

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DOI:: 10.1098/rspb.2013.0016

PMC ID:: 3712433

PubMed ID:: 23825201

ScienceOpen disciplines: Chemistry

Keywords: Animals,Animal Migration,Urbanization,Humans,Photoperiod,Hibernation,Biological Clocks,Climate Change,Seasons,physiology,Reproduction,Adaptation, Physiological,Periodicity,Birds

Annual rhythms that underlie phenology: biological time-keeping meets environmental change.

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Abstract

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Climate Change: Open Access

Most cited references 85

Two decades of urban climate research: a review of turbulence, exchanges of energy and water, and the urban heat island

Biological consequences of global warming: is the signal already apparent?

Rapid changes in flowering time in British plants.

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