THE EFFECTS OF FLOWERING AND FRUIT FORMATION ON THE SUPPLY OF PHOTOSYNTHETIC ASSIMILATES TO THE NODULES OF <i>PISUM SATIVUM</i> L. IN RELATION TO THE FIXATION OF NITROGEN

Lawrie, A. C.; Wheeler, C. T.

doi:10.1111/j.1469-8137.1974.tb02141.x

Cited by 41 publications

(18 citation statements)

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“…Lawrie and Wheeler (1974) found that bract color change can use some of the leaf N content in preparation for anthesis, which might have decreased all sensors readings. All sensors showed quadratic responses across treatments within sampling dates due to sensor readings tendency to plateau at higher N rates, which can be attributed to plants reaching maximum N capacity (Figs.…”

Section: Discussionmentioning

confidence: 98%

Use of nondestructive sensors to assess nitrogen status in potted poinsettia (Euphorbia pulcherrima L. (Willd. ex Klotzsch)) production

Basyouni

Dunn

Goad

2015

Scientia Horticulturae

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Section: Discussionmentioning

confidence: 98%

Use of nondestructive sensors to assess nitrogen status in potted poinsettia (Euphorbia pulcherrima L. (Willd. ex Klotzsch)) production

Basyouni

Dunn

Goad

2015

Scientia Horticulturae

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“…Higher PAR and LA accompanied increased TNA of several forage legumes (3, 4). Floral debudding and the associated promotion of vegetative growth stimulated nodule growth (16) and TNA (11) of pea (Pisum sativum L.). The TNA of soybeans declined after CO2 deprivation (9), shading (10), defoliation (10), stem girdling (9), shoot excision (12), and prolonged darkness (12).…”

mentioning

confidence: 99%

Nitrogen Fixation and Vegetative Regrowth of Alfalfa and Birdsfoot Trefoil after Successive Harvests or Floral Debudding

Cralle

Heichel²

1981

Plant Physiol.

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Nitrogenase-dependent acetylene reduction, leaf, herbage, and root growth, and total nonstructural carbohydrate accumulation of alfalfa (Medicago sativa L.) and birdsfoot trefoil (Lotus corniculatus L.) were compared to learn how nitrogen fixation capacity and vegetative growth respond to partial (75-85%) or total shoot and leaf removal, and floral debudding. Treatments were imposed on greenhouse-grown plants during two successive harvest cycles.Both species displayed an initial decline in total nitrogenase activity within 2 days of harvest and a subsequent recovery of activity after 10 to 21 days. Rate of recovery varied with the amount of leaf area removed. Periodic flower removal did not significantly alter total nitrogenase activity of either species compared with the unharvested controls. In the first harvest cycle, partial leaf area removal did not affect nitrogenase activity of alfalfa, but activity of trefoil was reduced 56%. In the second harvest cycle, partial leaf area removal reduced total nitrogenase activity of alfalfa 46% and that of trefoil 69%. Complete leaf and shoot removal reduced total nitrogenase activity of alfalfa 78% after the first harvest and 86% after the second harvest.Recovery of nitrogenase activity after harvest paralleled leaf area expansion in both species. After the initial decline following the first partial harvest, total nitrogenase activity and leaf area of alfalfa increased 170 and 500%, respectively. After the initial decline following the second partial harvest, nitrogenase activity and leaf area of alfalfa increased 280 and 800%, respectively. Partly harvested trefoil and completely harvested alfalfa showed similar response patterns. Release of bud dormancy and leaf area expansion after flowering of nonharvested alfalfa apparently caused an increase in nitrogenase activity, but patterns of acetylene reduction and leaf area were not otherwise closely correlated in controls of either species. Decline and accumulation of total nonstructural carbohydrates in both species varied with defoliation treatment. Patterns of nonstructural carbohydrates in root tissue were not closely related to the changes in total nitrogenase activity caused by shoot removal. associated with photosynthate supply and partitioning in a number of species. Supplemental light (10), grafting of a second shoot (21), and CO2 enrichment (6) enhanced TNA of soybeans (Glycine max L. Merr.). Higher PAR and LA accompanied increased TNA of several forage legumes (3, 4). Floral debudding and the associated promotion of vegetative growth stimulated nodule growth (16) and TNA (11) of pea (Pisum sativum L.). The TNA of soybeans declined after CO2 deprivation (9), shading (10), defoliation (10), stem girdling (9), shoot excision (12), and prolonged darkness (12). Similarly, TNA decreased after exposure of subterranean clover to low light intensity (4), removal of pea shoots (13), and continuous darkening of pea and alder (23). The depression of TNA by such competing sinks as developing fruits (1, 7, 10) fur...

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“…The supply of photosynthates to the nodules was showed to be affected by a variety of factors such as; light intensity (3,11), stage of growth (6,7,10), time period of day (12).…”

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confidence: 99%

Effect of combined nitrogen on the distribution pattern of photosynthetic assimilates in nodulated soybean plant as revealed by¹⁴c

Rabie

Arima

Kumazawa

1980

Soil Science and Plant Nutrition

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A general relationship was found between combined nitrogen nutrition and translocation pattern of "C assimilates in an experiment carried out in greenhouse with soybean plant grown in nitrogen-free water culture and supplied with 40 ppm N in the form of NOs-or NH. + for 1 week before exposure to "C02 at initial pod filling stage.The longest the cold chase time after "C02 exposure, the highest the percentage of total recovered .. c was translocated from the leaves to the different plant parts. Ammonium cecreased the capacity of leaves for exportation of labeled photosynthates. A relatively high percentage of total recovered "c was observed in the stems and pods of NOs--treated plants as compared to NH. + -treated plants, and the opposite was true with root system. In different plant parts except nodules, nitrate-treated plants had high specific radioactivities and ammonium-treated plants had low specific radioactivities compared with control. Among the different plant parts other than leaves, pods showed the highest specific radioactivity particularly with nitrate treatment. Specific radioactivity of nodules was lower than that for roots. Both nitrate and ammonium decreased the share of photosynthates distributed in nodules. Additional Index Words: nitrate, ammonium, dry matter, "C02 ,

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THE EFFECTS OF FLOWERING AND FRUIT FORMATION ON THE SUPPLY OF PHOTOSYNTHETIC ASSIMILATES TO THE NODULES OF PISUM SATIVUM L. IN RELATION TO THE FIXATION OF NITROGEN

Cited by 41 publications

References 14 publications

Use of nondestructive sensors to assess nitrogen status in potted poinsettia (Euphorbia pulcherrima L. (Willd. ex Klotzsch)) production

Use of nondestructive sensors to assess nitrogen status in potted poinsettia (Euphorbia pulcherrima L. (Willd. ex Klotzsch)) production

Nitrogen Fixation and Vegetative Regrowth of Alfalfa and Birdsfoot Trefoil after Successive Harvests or Floral Debudding

Effect of combined nitrogen on the distribution pattern of photosynthetic assimilates in nodulated soybean plant as revealed by¹⁴c

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THE EFFECTS OF FLOWERING AND FRUIT FORMATION ON THE SUPPLY OF PHOTOSYNTHETIC ASSIMILATES TO THE NODULES OF PISUM SATIVUM L. IN RELATION TO THE FIXATION OF NITROGEN

Cited by 41 publications

References 14 publications

Use of nondestructive sensors to assess nitrogen status in potted poinsettia (Euphorbia pulcherrima L. (Willd. ex Klotzsch)) production

Use of nondestructive sensors to assess nitrogen status in potted poinsettia (Euphorbia pulcherrima L. (Willd. ex Klotzsch)) production

Nitrogen Fixation and Vegetative Regrowth of Alfalfa and Birdsfoot Trefoil after Successive Harvests or Floral Debudding

Effect of combined nitrogen on the distribution pattern of photosynthetic assimilates in nodulated soybean plant as revealed by14c

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Effect of combined nitrogen on the distribution pattern of photosynthetic assimilates in nodulated soybean plant as revealed by¹⁴c