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Photosynthetic nitrogen-use efficiency of species that differ inherently in specific leaf area (1998)

Poorter, Hendrik ; Evans, John R.

Springer

Oecologia 116 (1998), S. 26-37

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ISSN: 1432-1939

Keywords: Key words Interspecific variation ; Nitrogen ; Photosynthesis ; Photosynthetic nitrogen use efficiency ; Specific leaf area

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Factors that contribute to interspecific variation in photosynthetic nitrogen-use efficiency (PNUE, the ratio of CO2 assimilation rate to leaf organic nitrogen content) were investigated, comparing ten dicotyledonous species that differ inherently in specific leaf area (SLA, leaf area:leaf dry mass). Plants were grown hydroponically in controlled environment cabinets at two irradiances (200 and 1000 μmol m–2 s–1). CO2 and irradiance response curves of photosynthesis were measured followed by analysis of the chlorophyll, Rubisco, nitrate and total nitrogen contents of the leaves. At both irradiances, SLA ranged more than twofold across species. High-SLA species had higher in situ rates of photosynthesis per unit leaf mass, but similar rates on an area basis. The organic N content per unit leaf area was lower for the high-SLA species and consequently PNUE at ambient light conditions (PNUEamb) was higher in those plants. Differences were somewhat smaller, but still present, when PNUE was determined at saturating irradiances (PNUEmax). An assessment was made of the relative importance of the various factors that underlay interspecific variation in PNUE. For plants grown under low irradiance, PNUEamb of high-SLA species was higher primarily due to their lower N content per unit leaf area. Low-SLA species clearly had an overinvestment in photosynthetic N under these conditions. In addition, high SLA-species allocated a larger fraction of organic nitrogen to thylakoids and Rubisco, which further increased PNUEamb. High-SLA species grown under high irradiance showed higher PNUEamb mainly due to a higher Rubisco specific activity. Other factors that contributed were again their lower contents of Norg per unit leaf area and a higher fraction of photosynthetic N in electron transport and Rubisco. For PNUEmax, differences between species in organic leaf nitrogen content per se were no longer important and higher PNUEmax of the high SLA species was due to a higher fraction of N in␣photosynthetic compounds (for low-light plants) and a higher Rubisco specific activity (for high-light grown plants).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420050560

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Leaf area ratio and net assimilation rate of 24 wild species differing in relative growth rate (1990)

Poorter, Hendrik ; Remkes, Carlo

Springer

Oecologia 83 (1990), S. 553-559

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ISSN: 1432-1939

Keywords: Interspecific variation ; Leaf area ratio ; Net assimilation rate ; Relative growth rate ; Specific leaf area

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Which factors cause fast-growing plant species to achieve a higher relative growth rate than slow-growing ones? To answer this question 24 wild species were grown from seed in a growth chamber under conditions of optimal nutrient supply and a growth analysis was carried out. Mean relative growth rate, corrected for possible ontogenetic drift, ranged from 113 to 356 mg g−1 day−1. Net assimilation rate, the increase in plant dry weight per unit leaf area and unit time, varied two-fold between species but no correlation with relative growth rate was found. The correlation between leaf area ratio, the ratio between total leaf area and total plant weight, and relative growth rate was very high. This positive correlation was mainly due to the specific leaf area, the ratio between leaf area and leaf weight, and to a lesser extent caused by the leaf weight ratio, the fraction of plant biomass allocated to the leaves. Differences in relative growth rate under conditions of optimum nutrient supply were correlated with the soil fertility in the natural habitat of these species. It is postulated that natural selection in a nutrient-rich environment has favoured species with a high specific leaf area and a high leaf weight ratio, and consequently a high leaf area ratio, whereas selection in nutrient-poor habitats has led to species with an inherently low specific leaf area and a higher fraction of root mass, and thus a low leaf area ratio.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317209

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Differences in relative growth rate in 11 grasses correlate with differences in chemical composition as determined by pyrolysis mass spectrometry (1992)

Niemann, Gerard J. ; Pureveen, Jos B. M. ; Eijkel, Gert B. ; [et al.]

Springer

Oecologia 89 (1992), S. 567-573

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ISSN: 1432-1939

Keywords: Cell components ; Grasses ; Interspecific variation ; Pyrolysis mass spectrometry ; Relative growth rate

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Eleven grass species varying in potential relative growth rate (RGR) were investigated for differences in chemical composition by pyrolysis mass spectrometry. The spectral data revealed correlations between RGR and the relative composition of several biopolymers. Species with a low potential RGR contained relatively more cell wall material such as lignin, hemicellulose, cellulose, polysaccharide-bound ferulic acid and hydroxyproline-rich protein, whereas species with a high potential RGR showed relatively more cytoplasmic elements such as protein (other than those incorporated in cell walls) and sterols.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317165

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