Effects of Periods of Localized Water Stress on Subsequent Nutrient Uptake by Barley Roots and Their Adaptation by Osmotic Adjustment

Shone, M. G. T.; Flood, Ann V.

doi:10.1111/j.1469-8137.1983.tb04865.x

Cited by 36 publications

(9 citation statements)

References 35 publications

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“…This estimated value is similar to that calculated from the nutrient culture experiments despite the assumption that all roots were exposed to a uniform average herbicide concentration in the soil. Shone & Flood (1983) also found no compensatory increase in root weight in non-stressed compared to drought-stressed parts of root systems which contrasts with other reports of compensatory uptake of water (e.g. Where only the primary or secondary roots were treated with 1 pg/l5 ml/l 1 days (Table 2) there was no evidence of increased nutrient solution uptake by the untreated roots.…”

Section: Estimated Entry Of Isoproturon Into Plants Growing In Soilcontrasting

confidence: 93%

The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO₂ fixation

Blair¹

1987

Annals of Applied Biology

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S U M M A R YAlopecurus myosuroides (blackgrass) was grown in nutrient and with isoproturon added to the solution when plants had three leaves. The transpiration stream coefficient factor was calculated over a period of 96 h after treatment to be approximately 1. On this basis isoproturon entry into A. myosuroides was estimated using data for water loss through plants and there was a linear relationship between herbicide entry and plant weight 14 days after treatment. Treatment for at least 7 days with isoproturon at a dose of 1 pg a.i./15 ml nutrient solution (= 0.32 x 1 0 -6~) before returning plants to fresh nutrient was necessary for damage to be still evident after 14 days. This time period corresponded with the reduction of C 0 2 exchange to zero as measured by infra-red gas analysis. Some recovery occurred from 6 h treatment with 120 pg a.i. isoproturon/l5 ml nutrient solution when assessed after returning plants to untreated nutrient for 14 days. A quicker depletion in C 0 2 uptake by blackgrass occurred when both the primary and secondary roots were treated compared with secondary alone but eventually the levels reached were similar. The 'CALF' model predicted much higher concentrations of isoproturon than appeared necessary to damage A. myosuroides. This suggests a major influence of climate on the plant and this and other interactions are discussed.

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Section: Estimated Entry Of Isoproturon Into Plants Growing In Soilcontrasting

confidence: 93%

The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO₂ fixation

Blair¹

1987

Annals of Applied Biology

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“…For example, Larrea tridentata exhibited a fivefold increase in d 15 N as soon as 3 days after watering, compared to unwatered controls (BassiriRad et al 1999). Nutrient uptake recovery in Larrea was attributed primarily to increased root growth, similar to that found in wheat (Brady et al 1995) and barley (Shone and Flood 1983).…”

Section: Effects Of Water and Temperaturementioning

confidence: 66%

The Efficiency of Nutrient Acquisition over the Life of a Root

Eissenstat

Volder

2005

Ecological Studies

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“…Although we suggest that post-drought recovery of NOS uptake was uncoupled from root growth in A. tridentata seedlings, the potential contribution of root growth to recovery of water and other nutrient uptake should not be underestimated (Shone and Flood 1983;Lauenroth et al 1987;North and Nobel 1991;Thomas 1991). Recovery of q,, reported within 4 days after rewetting (Fig.…”

Section: Discussionmentioning

confidence: 80%

“…after a rainfall event, results in increased water uptake and resumption of plant water status (Nobel and Sanderson 1984;Lauenroth et al 1987). Rapid root proliferation following rewetting may also be a plastic response adapted to resume nutrient uptake, particularly for slow diffusing ions such as P (Shone and Flood 1983). However, more recently Jupp and Newman (1987) reported that post-drought P uptake in pre-stressed rye grass was unrelated to initiation of root growth.…”

Section: Discussionmentioning

confidence: 99%

Root Growth, Osmotic Adjustment and NO3- Uptake During and After a Period of Drought in Artemisia tridentata

BassiriRad¹,

Caldwell²

1992

Functional Plant Biol.

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Nitrate uptake in pot-grown, well watered and water-stressed Artemisia tridentata seedlings was determined both during drought and during recovery from drought using 1 5~0 5 .Water deficit caused a 40% decrease in NO? uptake compared to well watered plants and the restricted NO? uptake persisted 4 days after rewatering. Between 4 and 14 days after rewatering, NOS uptake in previously stressed plants was the same as that of the controls. Root relative growth rate (RGR) during the drying cycle was about one-fourth that of the control, but recovered to the control level within 4 days after rewatering. Between 4 and 14 days after rewatering, the previously droughted plant roots exhibited nearly three times greater RGR than the control plant roots. Estimates of root solute content indicated that at no time during the stress and recovery periods did the droughted roots exhibit osmotic adjustment. Changes in root growth properties were uncoupled from turgor. During the recovery period, drought-induced adjustments in cell wall yielding properties are thought to have increased root growth in previously stressed seedlings. Nevertheless, the greater root growth of previously droughted plants did not result in more NO? acquisition than in control plants. The pattern of NO? uptake upon rewatering was apparently more closely associated with root uptake capacity.

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Effects of Periods of Localized Water Stress on Subsequent Nutrient Uptake by Barley Roots and Their Adaptation by Osmotic Adjustment

Cited by 36 publications

References 35 publications

The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO₂ fixation

The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO₂ fixation

The Efficiency of Nutrient Acquisition over the Life of a Root

Root Growth, Osmotic Adjustment and NO3- Uptake During and After a Period of Drought in Artemisia tridentata

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Effects of Periods of Localized Water Stress on Subsequent Nutrient Uptake by Barley Roots and Their Adaptation by Osmotic Adjustment

Cited by 36 publications

References 35 publications

The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO2 fixation

The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO2 fixation

The Efficiency of Nutrient Acquisition over the Life of a Root

Root Growth, Osmotic Adjustment and NO3- Uptake During and After a Period of Drought in Artemisia tridentata

Contact Info

Product

Resources

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The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO₂ fixation

The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO₂ fixation