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1

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Patterns of light and nitrogen distribution in relation to whole canopy carbon gain in C3 and C4 mono- and dicotyledonous species (1995)

Anten, N. P. R. ; Schieving, F. ; Werger, M. J. A.

Springer

Oecologia 101 (1995), S. 504-513

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ISSN: 1432-1939

Keywords: Nitrogen allocation ; Optimization ; Photosynthesis ; Canopy structure ; Photosynthetic pathway

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract An analytical model was used to describe the optimal nitrogen distribution. From this model, it was hypothesized that the non-uniformity of the nitrogen distribution increases with the canopy extinction rate for light and the total amount of free nitrogen in the canopy, and that it is independent of the slope of the relation between light saturated photosynthesis (Pm) and leaf nitrogen content (nL). These hypotheses were tested experimentally for plants with inherently different architectures and different photosynthetic modes. A garden experiment was carried out with a C3 monocot [rice, Oryza sativa (L.)], a C3 dicot [soybean, Glycine max (L.) Merr] a C4 monocot [sorghum, Sorghum bicolor (L.) Moensch] and a C4 dicot [amarantus, Amaranthus cruentus (L.)]. Leaf photosynthetic characteristics as well as light and nitrogen distribution in the canopies of dense stands of these species were measured. The dicot stands were found to have higher extinction coefficients for light than the monocot stands. Dicots also had more non-uniform N distribution patterns. The main difference between the C3 and C4 species was that the C4 species were found to have a greater slope value of the leaf-level Pm—nL relation. Patterns of N distribution were similar in stands of the C3 and C4 species. In general, these experimental results were in accordance with the model predictions, in that the pattern of nitrogen allocation in the canopy is mainly determined by the extinction coefficient for light and the total amount of free nitrogen.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00329431

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2

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Photosynthetic capacity and nitrogen partitioning among species in the canopy of a herbaceous plant community (1994)

Hirose, T. ; Werger, M. J. A.

Springer

Oecologia 100 (1994), S. 203-212

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ISSN: 1432-1939

Keywords: Canopy structure ; Nitrogen use efficiency Photon absorption ; Photosynthesis ; Species coexistence

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Partitioning of nitrogen among species was determined in a stand of a tall herbaceous community. Total amount of nitrogen in the aboveground biomass was 261 mmol N m−2, of which 92% was in three dominant species (Phragmites, Calamagrostis and Carex) and the rest was in the other eight subordinate species. Higher nitrogen concentrations per unit leaf area (n L) with increasing photosynthetically active photon flux density (PPFD) were observed in all species except for three short species. The changes in n L within species were mainly explained by the different nitrogen concentrations per unit leaf mass, while the differences in n L between species were explained by the different SLM (leaf mass per unit leaf area). Photon absorption per unit leaf nitrogen (Φ N ) was determined for each species. If photosynthetic activity was proportional to photon absorption, Φ N should indicate in situ PNUE (photosynthetic nitrogen use efficiency). High Φ N of Calamagrostis (dominant) resulted from high photon absorption per unit leaf area (Φ area ), whereas high Φ N of Scutellaria (subordinate) resulted from low n L although its Φ area was low. Species with cylinder-like “leaves” (Juncus and Equisetum) had low Φ N , which resulted from their high n L. Light-saturated CO2 exchange rates per unit leaf area (CER) and per unit leaf nitrogen (potential PNUE) were determined in seven species. Species with high CER and high n L (Phragmites, Carex and Juncus) had low potential PNUE, while species with low CER and low n L showed high potential PNUE. NUE (ratio of dry mass production to nitrogen uptake) was approximated as a reciprocal of plant nitrogen concentration. In most species, three measures of nitrogen use efficiency (NUE, Φ N and potential PNUE) showed strong conformity. Nitrogen use efficiency was high in Calamagrostis and Scutellaria, intermediate in Phragmites and relatively low in Carex. Nitrogen use efficiency of subordinate species was as high as or even higher than that of dominant species, which suggests that growth is co-limited by light and nitrogen in the subordinate species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00316946

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3

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Canopy structure and nitrogen distribution in dominant and subordinate plants in a dense stand of Amaranthus dubius L. with a size hierarchy of individuals (1996)

Anten, N. P. R. ; Werger, M. J. A.

Springer

Oecologia 105 (1996), S. 30-37

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ISSN: 1432-1939

Keywords: Canopy structure ; Light ; Nitrogen allocation ; Photosynthesis ; Size hierarchy of individuals

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The objective was to investigate how nitrogen allocation patterns in plants are affected by their vertical position in the vegetation (i.e. being either dominant or subordinate). A garden experiment was carried out with Amaranthus dubius L., grown from seed, in dense stands in which a size hierarchy of nearly equally aged individuals had developed. A small number of dominant plants had most of their leaf area in the highest layers of the canopy while a larger number of subordinate plants grew in the shade of their dominant neighbours. Canopy structure, vertical patterns of leaf nitrogen distribution and leaf photosynthetic characteristics were determined in both dominant and subordinate plants. The light distribution in the stands was also measured. Average N contents per unit leaf area (total canopy nitrogen divided by the total leaf area) were higher in the dominant than in the subordinate plants and this was explained by the higher average MPA (leaf dry mass per unit area) of the dominant plants. However, when expressed on a weight basis, average N contents (LNCav; total canopy N divided by the total dry weight of leaves) were higher in the subordinate plants. It is possible that these higher LNCav values reflect an imbalance between carbon and nitrogen assimilation with N uptake exceeding its metabolic requirement. Leaf N content per unit area decreased more strongly with decreasing relative photon flux density in the dominant than in the subordinate plants showing that this distribution pattern can be different for plants which occupy different positions in the light gradient in the canopy. The amount of N which is reallocated from the oldest to the younger, more illuminated leaves higher up in the vegetation may depend on the sink strength of the younger leaves for nitrogen. In the subordinate plants, constrained photosynthetic activity caused by shading might have reduced the sink intensity of these leaves.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00328788

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4

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Maximizing daily canopy photosynthesis with respect to the leaf nitrogen allocation pattern in the canopy (1987)

Hirose, T. ; Werger, M. J. A.

Springer

Oecologia 72 (1987), S. 520-526

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ISSN: 1432-1939

Keywords: Canopy structure ; Nitrogen allocation ; Optimization ; Photosynthesis ; Solidago altissima

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary A model of daily canopy photosynthesis was constructed taking light and leaf nitrogen distribution in the canopy into consideration. It was applied to a canopy of Solidago altissima. Both irradiance and nitrogen concentration per unit leaf area decreased exponentially with increasing cumulative leaf area from the top of the canopy. The photosynthetic capacity of a single leaf was evaluated in relation to irradiance and nitrogen concentration. By integration, daily canopy photosynthesis was calculated for various canopy architectures and nitrogen allocation patterns. The optimal pattern of nitrogen distribution that maximizes the canopy photosynthesis was determined. Actual distribution of leaf nitrogen in the canopy was more uniform than the optimal one, but it realized over 20% more photosynthesis than that under uniform distribution and 4.7% less photosynthesis than that under the optimal distribution. Redeployment of leaf nitrogen to the top of the canopy with ageing should be more effective in increasing total canopy photosynthesis in a stand with a dense canopy than in a stand with an open canopy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00378977

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5

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Canopy structure, nitrogen distribution and whole canopy photosynthetic carbon gain in growing and flowering stands of tall herbs (1992)

Schieving, F. ; Werger, M. J. A. ; Hirose, T.

Springer

Plant ecology 102 (1992), S. 173-181

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ISSN: 1573-5052

Keywords: Canopy ; Carbon gain ; Flowering ; Herbs ; Leaf area index ; Light profile ; Nitrogen profile ; Photosynthesis ; Structure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Using a combination of mathematical modeling and field studies we showed that in dense stands of growing herbaceous plants the vertical pattern of leaf nitrogen distribution resembles the pattern of mean light attenuation in the stand and hence tends to maximize total daily photosynthetic carbon gain of the whole stand. Flowering represents a strong sink of nitrogen away from the photosynthetic apparatus and in herbs like Solidago altissima it induces leaf shedding. We studied both the effect of nitrogen reallocation and leaf shedding on the whole canopy photosynthesis and changes in leaf nitrogen distributions in stands moving from the growing to the flowering stage. Despite a decrease in leaf area index and total nitrogen available for photosynthesis in the flowering stand, the leaf nitrogen distribution here also leads to an almost maximum canopy photosynthesis. In both the growing and the flowering stands the leaf area index was higher than calculated optimum values. It is pointed out that this should not necessarily be interpreted as ‘non-adaptive’.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00044732

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6

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Vegetation structure and substrate of the northern part of the Great Dyke, Rhodesia environment and plant communities (1978)

Werger, M. J. A. ; Wild, H. ; Drummond, B. R.

Springer

Plant ecology 37 (1978), S. 79-89

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ISSN: 1573-5052

Keywords: Africa ; Grassland ; Miombo woodland ; Plant communities ; Rhodesia ; Serpentine ; Syntaxonomy

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary In the northern part of the Great Dyke, Rhodesia, the physiognomic and floristic differences between the vegetation types on serpentine and on non-serpentine substrates are very striking and the boundaries between these types are generally sharp. On either of the substrates there are also differences in the vegetation which correspond to differences in habitat. An outline of the Great Dyke environment is given. A number of plots, laid out in transects across the Great Dyke, were sampled according to the Braun-Blanquet approach. Six plant communities are distinguished and described in detail: one occurring on granite, two on pyroxenite and three on serpentine. The syntaxonomy of these communities is discussed. A riverine forest community which strongly differs from all these vegetation types is also described.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00126831

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7

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Environment, vegetation and phytogeography of the high-altitude bogs of Lesotho (1974)

Zinderen Bakker, E. M. ; Werger, M. J. A.

Springer

Plant ecology 29 (1974), S. 37-49

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ISSN: 1573-5052

Keywords: Africa ; Alpine vegetation ; Bogs ; Lesotho ; Periglacial phenomena ; Phytogeography ; Phytosociology ; Syntaxonomy ; Thufur

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02390894

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8

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Leaf nitrogen distribution and whole canopy photosynthetic carbon gain in herbaceous stands (1991)

Werger, M. J. A. ; Hirose, T.

Springer

Plant ecology 97 (1991), S. 11-20

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ISSN: 1573-5052

Keywords: Canopy ; Carbon gain ; Leaf area index ; Leaf nitrogen ; Light extinction coefficient ; Photosynthesis ; Structure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The amount of photosynthetically-active photon flux density incident upon a leaf and the nitrogen content of that leaf strongly affect the photosynthetic carbon gain of that leaf. Therefore, the canopy structure of a stand, affecting the light climate in the canopy, and the leaf nitrogen distribution pattern in the canopy, affect the carbon gain of the whole canopy. This review discusses the results of studies directed to this problem and obtained so far in open and in dense canopies of stands of herbaceous, monocotyledonous or dicotyledonous, plants in their growing or flowering stages. It is found that the leaf nitrogen distribution pattern in the canopy is vertically non-uniform, and in dense stands more strongly so than in open stands. The leaf nitrogen distribution pattern in most canopies closely approaches an optimal pattern in that it maximizes whole canopy potential carbon gain as calculated for the actual total leaf nitrogen content and leaf area index of the stand. The resulting increase in potential carbon gain as compared to a uniform leaf nitrogen distribution pattern is considerable and it is larger in dense stands than in open stands. For at least some dense stands simulation studies show that with the available total leaf nitrogen content, whole canopy carbon gains could still be considerable higher had a lower leaf area index been developed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00033898

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