Abstract
ABSTRACTResponses of individual roots of the widely cultivated cactus Opuntia ficus‐indica to salinity stress were evaluated using a split‐root system. Three roots from a plant with at least 20 roots were isolated from the remainder of the root system and exposed to 0, 30 or 100 mol m‐3 NaCl for up to 28 d. Cortical cells became shorter and lateral root development was substantially reduced as salinity increased. Compared with the control, the increase in dry weight for the isolated roots was reduced 40% by 30 mol m‐3 NaCl and 93% by 100mol m‐3 NaCl. The sodium content of roots increased only two‐fold with increasing salinity. Respiration rates of roots exposed to 30 or 100 mol m‐3 NaCl were higher than those of the control. Carbon accumulation in roots measured 2 d after exposing shoots to 14CO2 was not initially affected by 30 mol m‐3 NaCl but was substantially reduced at 100 mol m‐3 NaCl. Thus, roots exposed to short periods of moderate salinity stress maintained sufficient carbon sink strength for continued growth of the roots. Moreover, increased salinity led to decreased efficiency of carbon usage for the expansion of root surface area.
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