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Plant competition for light analyzed with a multispecies canopy model (1990)

Beyschlag, W. ; Barnes, P. W. ; Ryel, R. ; [et al.]

Springer

Oecologia 82 (1990), S. 374-380

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ISSN: 1432-1939

Keywords: Triticum aestirum ; Avena fatua ; Canopy photosynthesis ; Canopy model ; Light competition

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The importance of photosynthetic characteristics such as quantum efficiency or carboxylation efficiency for carbon gain of plants competing for light in dense stands is dependent on several environmental factors and structural features of the canopy. A quantitative analysis of photosynthesis of competing plants in mixed stands of wheat and wild oat (Avena fatua L.), a common weed of wheat, involved measuring photosynthetic parameters of individual leaves at different heights in the canopy throughout the growing season. This information combined with detailed assessments of canopy structure was used with a multispecies canopy model to evaluate the importance of different photosynthetic characteristics for carbon gain in this canopy environment. Independent photosynthesis data sets were used to validate predictions of the model. Carboxylation efficiency (CE) and CO2-and light-saturated photosynthetic capacity (AML) were highly correlated and decreased with depth in the canopy for both species. Quantum efficiency (α) did not tend to decrease with depth in the canopy. Sensitivity analyses with the model for whole-plant carbon gain of each species over entire day periods were conducted. These showed that changes in CE and AML had an influence similar to that of changes in α on carbon gain for both species. This was not necessarily expected from single-leaf photosynthetic behavior in response to changes in CE, AML and α. The influence of α is more pronounced in the lower, more shaded portions of the canopy than are changes in CE and AML. Appreciable differences between the species were apparent for carbon gain under different weather conditions. The differences between the species in carbon gain when in competition for light were associated more with structural features rather than with photosynthetic characteristics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317486

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Plant competition for light analyzed with a multispecies canopy model (1990)

Barnes, P. W. ; Beyschlag, W. ; Ryel, R. ; [et al.]

Springer

Oecologia 82 (1990), S. 560-566

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ISSN: 1432-1939

Keywords: Canopy structure ; Competition for light ; Leaf area index-LAI ; Leaf inclination ; Canopy photosynthesis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary A multispecies canopy photosynthesis simulation model was used to examine the importance of canopy structure in influencing light interception and carbon gain in mixed and pure stands of wheat (Triticum aestivum L.) and wild oat (Avena fatua L.), a common weedy competitor of wheat. In the mixtures, the fraction of the simulated canopy photosynthesis contributed by wheat was found to decline during the growing season and this decline was closely related to reductions in the amount of leaf area in upper canopy layers. For both species in mixture and in monoculture, simulated photosynthesis was greatest in the middle or upper-middle canopy layers and sensitivity analyses revealed that canopy photosynthesis was most sensitive to changes in leaf area and leaf inclination in these layers. Changes in LAI and leaf inclination affected canopy carbon gain differently for mixtures and monocultures, but the responses were not the same for the two species. Results from simulations where the structural characteristics of the two species were substituted indicated that species differences in leaf inclination, sheath area and the fraction of leaf area alive were of minor consequence compared with the differences in total leaf area in influencing relative canopy carbon gain in mixtures. Competition for light in these species mixtures appears to be influenced most by differences in the positioning of leaf area in upper canopy layers which determines, to a great extent, the amount of light intercepted.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00319801

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Soil solution phosphate, root uptake kinetics and nutrient acquisition: implications for a patchy soil environment (1992)

Caldwell, M. M. ; Dudley, L. M. ; Lilieholm, B.

Springer

Oecologia 89 (1992), S. 305-309

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ISSN: 1432-1939

Keywords: Soil phosphate ; Root kinetics ; Root proliferation ; Agropyron desertorum ; Artemisia tridentata

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The importance of increased root phosphate (P) uptake kinetics, root proliferation and local increases of soil solution P (P1) for P acquisition from fertile soil microsites was explored with a simulation model and calculated uptake was compared with experimental data. Based on the partitioning of added P in microsites to P1 and P adsorbed on soil particles and the results of a dual-isotope-labeling experiment (Caldwell et al. 1991a), acquisition of P from the fertile microsites was some 20 X that of uptake from an equal volume of soil which received only water. Simulations were in general agreement and also showed that elevation of root P uptake kinetics could contribute more to the increased acquisition than did root proliferation under these circumstances. Although increased physiological uptake capacity for P has generally been considered to be of little benefit because of diffusion limitation, in patchy soil environments selective elevation of P uptake kinetics in fertile microsites may be of considerable benefit. These tests were conducted in calcareous soil which releases much less P into the soil solution than do many other soils. In many noncalcareous soils the benefits of selective elevation of root uptake kinetics would likely be greater.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317406

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Effect of competition on stable carbon isotope ratios of two tussock grass species (1991)

Williams, K. ; Richards, J. H. ; Caldwell, M. M.

Springer

Oecologia 88 (1991), S. 148-151

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ISSN: 1432-1939

Keywords: Agropyron desertorum ; Agropyron spicatum ; Pseudoroegneria spicata ; Artemisia tridentata ; Stable carbon isotope composition

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Previous studies have shown that plant carbon isotope composition varies when plants experience differences in water and nutrient availability. However, none have addressed the effect of root interactions, including competition for these soil resources, on carbon isotope ratios. We studied the effect of interspecific root interactions on the productivity and carbon isotope ratios of two Great Basin tussock grass species (Agropyron desertorum and Pseudoroegneria spicata). We compared grasses grown in mixture with sagebrush (Artemisia tridentara) to grasses in similar mixtures but where root interactions with sagebrush were limited by fiberglass partitions. During both years of the study, tussocks growing in competition with sagebrush produced tissue with more negative δ13C values than grasses experiencing limited root interaction with sagebrush. The magnitude of this difference (0.5 to 0.9%) is similar to that found in other studies when soil fertility and moisture availability were altered.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00328416

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