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Effects of nitrogen nutrition on salt stressed Nicotiana tabacum var. Samsum in vitro.

The responses of Nicotiana tabacum L. var. Samsun to alterations in the nitrogen
(N) supply under saline conditions in vitro were monitored. The aim was to test the
hypothesis that nitrate-nitrogen supplementation to salt stressed plants alleviates the
deleterious effects of salt on plant growth.
Due to its capacity to be maintained under stringent environmental conditions, in
vitro shoot cultures were chosen as the system of study. Nicotiana tabacum plantlets
regenerated from callus in vitro were excised and rooted on solid MS culture
medium containing a range of concentrations of NaCI (0 - 180 mM) and N (0 - 120
mM, as NO3--N, NH4+-N or a combination). A variety of parameters of root and
shoot growth, nutrient utilisation and nitrogen metabolism were assessed over a 35 d
period. Plant growth on 40 mM NO3--N + 20 mM NH4+-N (standard MS nutrients) was
inhibited by the presence of salt, with root growth being more adversely affected by
salt than stem growth. Root emergence was delayed from 6 d (0 mM NaCI) to 15 d
(180 mM NaCI). Similar suppression of growth for all parameters, except root mass
and leaf chlorophyll content, was observed when NaCI was replaced with mannitol
at equivalent osmolalities. Root mass and leaf chlorophyll were significantly
improved in plantlets supplied with mannitol. The time of root emergence was
unaffected by mannitol supply, with all roots emerging after 10 d in culture. Plantlet
growth on NH4+-N only (0 - 60 mM) was severely inhibited, even in the absence of
NaCI, and was inferior to growth on NO3--N. Nitrate additions to salt stressed
plantlets could not match growth in control (0 mM NaCI) plantlets. When plantlets
were cultured on NO3--N only (0 mM, 30 mM, 60 mM, 120 mM), the increase in
nitrate supply up to 60 mM resulted in a small improvement in growth on 90 mM
NaCI, but had almost no effect on growth at 180 mM NaCl. A nitrate supply of 120
mM led to growth inhibition in all parameters, even in the absence of NaCl.
Plantlet growth on isosmotic concentrations of mannitol in the presence of 0 - 120
mM NO3--N essentially mimicked that of NaCI, except for leaf chlorophyll content
which was improved on mannitol at all NO3-·N levels.
Nitrate uptake (measured as depletion from growth medium) by plantlets grown on
0 - 180 mM NaCI was positively correlated to availability of nitrate but negatively
correlated to NaCI supply. Similar results were obtained for a mannitol supply
except nitrate uptake was enhanced significantly on mannitol compared to NaCl.
Sodium and chloride uptake appeared unaffected by nitrate concentration. Leaf
protein content responded favourably to an increase in the NO3--N supply up to 60
mM and, in particular, appeared to be stimulated in the presence of 180 mM NaCl.
Nitrate reductase (NR) activity was found to be inhibited drastically by salt and
NO3--N supplementation to the salt medium had no effect on enzyme activity.
A reduction in leaf total RNA content was recorded with an increase in NaCI
concentration from 0 - 180 mM. A positive response to an increase in the NO3--N
supply from 30 mM to 60 mM was detected in the presence of NaCl. Attempts were
made to assess the levels of mRNA for NR in response to the various NaCl and N
regimes. The plasmid pBMCI02010 containing a NR cDNA insert was isolated and
purified and used in both radioactive and non-radioactive RNA slot blot
hybridisation procedures. However, due to problems of non-specific binding of the
probe, no quantification of the levels of NR mRNA in response to the various
treatments could be made. Nitrate supplementation to plantlets of Nicotiana tabacum growing in vitro did not
appear to ameliorate the effects of salinity stress, such that growth of plantlets in the
presence of NaCI was always inferior to that in the absence of NaCl. As a large
portion of growth inhibition was found in this study to be a result of osmotic rather
than ionic effects of salt, it is questioned whether a nitrate supply would have an
ameliorating effect on plant growth under field conditions. / Thesis (M.Sc.)-University of Natal, Durban, 1992.

Identiferoai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:ukzn/oai:http://researchspace.ukzn.ac.za:10413/8128
Date January 1992
CreatorsSweby, Deborah Lee.
ContributorsWatt, M. Paula., Huckett, Barbara I.
Source SetsSouth African National ETD Portal
Languageen_ZA
Detected LanguageEnglish
TypeThesis

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