Light micrograph of a cucumber root tip releasing border cells after immersion i
Keywords
Light micrograph
Description
Light micrograph
Light micrograph of a cucumber root tip releasing border cells after immersion
in water. Recent concern about global warming and the underlying anthropogenic
increase in atmospheric CO2 has led to intense interest in carbon
cycles. One component of the carbon cycle is soil sequestration of carbon, which
is ecologically important. Much of the underground cycling of carbon occurs
in rhizospheres, small layers of soil surrounding and influenced by the roots
of higher plants. Throughout its lifetime, a plant root releases organic carbon
to its rhizosphere. Carbon-containing exudates have been found to be particularly
abundant at root tips and at points of initiation of branch roots. The root
tips, including root caps, meristems, and elongation zones, are particularly
active in secreting sugars, organic acids, and specialized compounds such as
phytosiderophores. Mucilage, containing high molecular weight polysaccharides
(particularly polyuronic acids), is produced copiously by root caps and cortical
cells. These carbon sources sustain the rich microflora of the rhizosphere.
Another source of carbon is provided by border cells, a subset of peripheral
root cap cells. These cells are formed as part of the root cap and released
from the exterior of the cap to live freely in the soil for a time. Border cells
are known to exert antibiotic effects, protecting plants from certain pathogenic
microbial infections, and stimulating the growth of other microbes. While examining
the importance of border cell release to carbon cycling in soils, we made the
unexpected discovery that the number of cells released is strongly dependent
on the developmental stage of the root. In four species that were examined,
young, short seedling roots released thousands, while roots longer than 4 cm
released only tens to hundreds of border cells. This developmental program is
hypothesized to protect the plant during the critical period of radicle penetration
of the soil following germination and during seedling establishment.
For further details, see Odell et al.: Stage-dependent border cell
and carbon flow from roots to rhizosphere, American Journal of
Botany, Volume 95, Issue 4, pages 441-446, http://www.amjbot.org/cgi/content/short/95/4/441.
Additional data
copyright: Botanical Society of America
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