Nitrogen reserve status affects the dynamics of nitrogen remobilization and mineral nitrogen uptake during recovery of contrasting cultivars of <i>Lolium perenne</i> from defoliation

Louahlia, Saïd; Macduff, J. H.; Ourry, Alain; Humphreys, M. W.; Boucaud, J.

doi:10.1046/j.1469-8137.1999.00419.x

Cited by 50 publications

(52 citation statements)

References 38 publications

(60 reference statements)

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“…Our observation indicated seasonal and successional dynamics in N-form utilization of plant species especially with varying site-specific conditions, such as mineral soil-N concentration or plant interaction (density) which occur during succession (see also Louahlia et al 1999;McKane et al 2002;Jumpponen et al 2002;Kahmen et al 2006). The observation of C. canescens and R. acetosella across three successional stages showed that both species used the same N-sources, but in different amounts.…”

Section: Effects Of Successional Stagesmentioning

confidence: 80%

Dynamic niche sharing in dry acidic grasslands -a 15N-labeling experiment

2011

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In this study we investigated the temporal variability of N-source utilization of pioneer plant species in different early successional stages of dry acidic grasslands. Current theory states that plant species occupy distinct ecological niches and that there are species-specific, temporal N-uptake patterns.We hypothesized that small-scale dynamics in the natural habitat may affect niche differentiation among plant species. We investigated N-uptake patterns of two co-occurring plant species from different functional groups (Corynephorus canescens, Rumex acetosella) under natural conditions using 15 N-labeled nitrate and ammonium in three different early successional stages during early and late summer. We found (1) marked seasonal dynamics with respect to Nuptake and N-source partitioning, and (2) different uptake rates across successional stages but a similar N-form utilization of both species. Nitrate was the main N-source in the early and later successional stages, but a shift towards enhanced ammonium uptake occurred at the cryptogam stage in June. Both species increased N-uptake in the later successional stage in June, which was associated with increasing plant biomass in C. canescens, whereas R. acetosella showed no significant differences in plant biomass and root/shoot-ratio between successional stages. Ammonium uptake decreased in both species across all stages with increasing drought. Nevertheless, the peak time of N-uptake differed between the successional stages: in the early successional site, with the lowest soil N, plants were able to extend N-uptake into the drier season when uptake rates in the other successional stages had already declined markedly. Hence, we found a pronounced adjustment in the realized niches of co-occurring plant species with respect to N-uptake. Our results indicate that ecological niches can be highly dynamic and that niche sharing between plant species may occur instead of niche partitioning.

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Section: Effects Of Successional Stagesmentioning

confidence: 80%

Dynamic niche sharing in dry acidic grasslands -a 15N-labeling experiment

2011

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“…Like in various other naturally prolineaccumulating plants (Suresh et al, 2008), LP leaves also contain high concentrations of proline (Kemble and MacPherson, 1954). Beside this, LP leaf extract contains significant amounts of various inorganic nutrients and organic compounds like nitrogen, phosphorus, calcium, potassium, magnesium, fiber, carbohydrates, and proteins (Louahlia et al, 1999;Harrington et al, 2006). However, utilization of this natural proline source in mitigating salinity-and/or nickel-induced deleterious effects cannot be found in the literature.…”

Section: Introductionmentioning

confidence: 99%

Exogenous proline and proline-enriched Lolium perenne leaf extract protects against phytotoxic effects of nickel and salinity in Pisum sativum by altering polyamine metabolism in leaves

Shahid¹,

Balal²,

Pervez³

et al. 2014

Turk J Bot

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“…It has been well established that plant nutrient status at the time of defoliation is an important determinant of subsequent regrowth (Ourry et al 1989, Thornton and Millard 1996, Volenec et al 1996, Louahlia et al 1999.…”

Section: Dynamics Of Plant Regrowth and Plant Morphologymentioning

confidence: 99%

“…Higher contents of nitrates, free amino acids and soluble proteins were frequently observed in plants grown under high N availability (Morvan-Bertrand et al 1999a, Louahlia et al 1999, Gloser 2002. Although the high content of soluble nitrogen compounds is not necessarily connected with rapid plant regeneration, the magnitude and dynamics of mobilization of nitrogen reserves after defoliation usually depends on the plant N status at the time of defoliation (Ourry et al 1989, Louahlia et al 1999. Dependence of defoliated plants on nitrogen and carbon reserves also varies throughout regrowth (De Visser et al 1997, Morvan-Bertrand et al 1999a.…”

Section: Introductionmentioning

confidence: 97%

“…The most important organs for storage of reserves in grasses are frequently stubble and root, where considerable mobilization of both carbon and nitrogen during plant regrowth has been observed (Ourry et al 1988, Louahlia et al 1999, Morvan-Bertrand et al 1999b). On the other hand, little is known about the role of rhizomes of rhizomatous grasses in plant regeneration after defoliation.…”

Section: Introductionmentioning

confidence: 98%

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Regrowth dynamics of Calamagrostis epigejos after defoliation as affected by nitrogen availability

Gloser¹,

Košvancová²,

Gloser³

2007

Biol. plant.

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Young plants of a rhizomatous grass Calamagrostis epigejos (L.) Roth were grown from seed in nutrient solutions containing nitrogen in concentrations 0.1, 1.0, and 10 mM. After six weeks of cultivation the plants were defoliated and changes in growth parameters and in content of storage compounds were measured in the course of regrowth under highly reduced nitrogen availability. Plants grown at higher nitrogen supply before defoliation had higher amount of all types of nitrogen storage compounds (nitrates, free amino acids, soluble proteins), which was beneficial for their regrowth rate, in spite of lower content of storage saccharides. Amino acids and soluble proteins from roots and stubble bases were the most important sources of storage compounds for regrowth of the shoot. Faster growth of plants with higher N content was mediated by greater leaf area expansion and greater number of leaves. In plants with lower contents of N compounds number of green leaves decreased after defoliation significantly and senescing leaves presumably served as N source for other growing organs. Results suggest that internal N reserves can support regrowth of plants after defoliation even under fluctuating external N availability. Faster regrowth of C. epigejos with more reserves was mediated mainly by changes in plant morphogenesis.

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Nitrogen reserve status affects the dynamics of nitrogen remobilization and mineral nitrogen uptake during recovery of contrasting cultivars of Lolium perenne from defoliation

Cited by 50 publications

References 38 publications

Dynamic niche sharing in dry acidic grasslands -a 15N-labeling experiment

Dynamic niche sharing in dry acidic grasslands -a 15N-labeling experiment

Exogenous proline and proline-enriched Lolium perenne leaf extract protects against phytotoxic effects of nickel and salinity in Pisum sativum by altering polyamine metabolism in leaves

Regrowth dynamics of Calamagrostis epigejos after defoliation as affected by nitrogen availability

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