Reviews and syntheses: Australian vegetation phenology: new insights from satellite remote sensingand digital repeat photography
Date
2016-09-13
Authors
Moore, Caitlin E.
Brown, Tim
Keenan, Trevor F.
Duursma, Remko A.
van Dijk, Albert I. J. M.
Beringer, Jason
Culvenor, Darius
Evans, Bradley
Huete, Alfredo
Hutley, Lindsay B.
Journal Title
Journal ISSN
Volume Title
Publisher
European Geosciences Union (EGU)
Abstract
Phenology is the study of periodic biological occurrences
and can provide important insights into the influence
of climatic variability and change on ecosystems. Understanding
Australia’s vegetation phenology is a challenge
due to its diverse range of ecosystems, from savannas and
tropical rainforests to temperate eucalypt woodlands, semiarid
scrublands, and alpine grasslands. These ecosystems exhibit
marked differences in seasonal patterns of canopy development
and plant life-cycle events, much of which deviates
from the predictable seasonal phenological pulse of
temperate deciduous and boreal biomes. Many Australian
ecosystems are subject to irregular events (i.e. drought, flooding,
cyclones, and fire) that can alter ecosystem composition,
structure, and functioning just as much as seasonal change.
We show how satellite remote sensing and ground-based
digital repeat photography (i.e. phenocams) can be used to
improve understanding of phenology in Australian ecosystems.
First, we examine temporal variation in phenology on
the continental scale using the enhanced vegetation index
(EVI), calculated from MODerate resolution Imaging Spectroradiometer
(MODIS) data. Spatial gradients are revealed,
ranging from regions with pronounced seasonality in canopy
development (i.e. tropical savannas) to regions where seasonal
variation is minimal (i.e. tropical rainforests) or high
but irregular (i.e. arid ecosystems). Next, we use time series
colour information extracted from phenocam imagery to illustrate
a range of phenological signals in four contrasting
Australian ecosystems. These include greening and senescing
events in tropical savannas and temperate eucalypt understorey,
as well as strong seasonal dynamics of individual
trees in a seemingly static evergreen rainforest. We also
demonstrate how phenology links with ecosystem gross primary
productivity (from eddy covariance) and discuss why
these processes are linked in some ecosystems but not others.
We conclude that phenocams have the potential to greatly improve
the current understanding of Australian ecosystems. To
facilitate the sharing of this information, we have formed the
Australian Phenocam Network (http://phenocam.org.au/).
Description
Keywords
phenology, vegetation, satellite remote sensing, Australia, digital repeat photography
Citation
Collections
Source
Biogeosciences
Type
Journal article
Book Title
Entity type
Access Statement
Open Access
License Rights
Restricted until
Downloads
File
Description