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light wavelength) and intensity can be separately discriminated (Ballare
1994, 1999), and further complexity is added by virtue of the availability
of resources being present either in fluctuating quantities varying from
seconds to months, gradients with fluctuating intensity or a mosaic in the
soil of vastly different concentrations (Bell and Lechowicz 1994; Farley and
Fitter 1999; Grime 1994; Kuppers 1994; Pearcy et al. 1994; Robertson and
Gross 1994) and others. Biotic signals are also sensed and acted upon and
these include space; presence, absence and identity of neighbours (Tremmel
and Bazzaz 1993); disturbance; competition (Darwinkel 1978; Goldberg and
Barton 1992; Tremmel and Bazzaz 1995), predation and disease (Callaway
et al. 2003; Turkington and Aarsen 1984). We understand little of the nature
of the signals involved. Growth of individuals and neighbours continually
and specifically changes the information spectrum.
Thereisnouniqueseparateresponsetoeachsignalinthiscomplexbut
merely a response issued from an integration of all environmental and inter-
nal information. In the case of green plants, the visible response to signals
is phenotypic plasticity (Bradshaw 1965; Schlichting and Pigliucci 1998;
Sultan 2000). During information processing all signals meet somewhere
in the cellular and tissue reactions that specify changes in form.
In seeking to understand the biological origins of human intelligence,
Stenhouse (1974) described intelligence as adaptively variable behaviour
during the lifetime of the individual in an attempt to discriminate intelligent
behaviourfromautonomic,thatisunvarying,responses.Giventheplethora
of signals that plants integrate into a response, autonomic responses do
not occur. Signal perception is instead ranked according to assessments
of strength and exposure. But autonomic responses can be rejected; the
numbers of different environments that any wild plant experiences must
be almost infinite in number. Only complex computation can fashion the
optimal fitness response.
1.1.3
Experimental Circumstances Can Be Misleading
When one factor is experimentally varied at a time in an attempt to simplify
the complexity that wild plants normally experience, all those factors that
do not vary are still sensed and integrated with the modified variable. For
example, exposing a dicot seedling root to a gravitational signal leads to
the textbook response of a resumption of vertical growth. But gradients
of humidity, minerals, light, temperature imposed in a different direction
or touch can override the gravity signal (Eapen et al. 2003; Massa and
Gilroy 2003). Further complexity can result from an individuality in re-
sponse to any one imposed signal (Trewavas 1998). Again for example with
 
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