Sentence examples for modifications in root from inspiring English sources

NIL6-4 is tolerant to P deficiency due to modifications in root growth that maximize Pi interception.

The higher expression for many root cell-wall-associated genes would support our third hypothesis that tolerance to P deficiency in NIL6-4 is due to modifications in root growth that maximize Pi interception.

In particular, we tested the hypotheses that NIL6-4 is more tolerant to P deficiency due to the differential regulation of genes associated with (1) internal P use efficiency due to more efficient Pi remobilization; (2) enhanced P acquisition through efficient Pi uptake or soil P solubilization; and (3) modifications in root growth that maximize Pi interception.

Plants typically react to such low P availability with a series of adaptive responses that maximize Pi interception through modifications in root growth, enhance P acquisition efficiency through efficient Pi uptake mechanisms combined with exudation of P solubilizing compounds, and improve internal P use efficiency as a result of rapid P remobilization and retranslocation.

Modifications in root morphology are important strategies to maximize soil exploitation under phosphorus starvation in plants.

Cd-induced ultrastructural modifications in root meristem and leaf mesophyll cells were observed under transmission electron microscopy.

Morphological modifications in roots of Fe-deficient plants are well documented [ 59, 60].

We have demonstrated that plant tolerance to TA and IXB, as well as cell wall synthesis modifications in roots, have resulted in specific co-resistance to NPA but not TIBA.

The knowledge obtained is useful to decide the duration of drought that causes discernible modification in root system and can help identification of genetic variation for such adaptation.

The LCOs secreted by rhizobia are described as responsible for several physiological modifications in the root hairs of legumes.

In the present study, we examined structural and functional modifications in adventitious roots of tamarack seedlings to explain their flooding tolerance.