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L. Maillette (1986)
Canopy development, leaf demography and growth dynamics of wheat and three weed species growing in pure and mixed standsJournal of Applied Ecology, 23
H. Mooney, S. Gulmon (1982)
Constraints on Leaf Structure and Function in Reference to HerbivoryBioScience, 32
M. Fuchs, E. Schulze, M. Fuchs (1977)
Spacial distribution of photosynthetic capacity and performance in a mountain spruce forest of northern GermanyOecologia, 29
H. Keulen, J. Goudriaan, N. Seligman (1989)
Modelling the effects of nitrogen on canopy development and crop growth.
(1990)
Die Kohlenstoffbilanz von B1/ittern krautiger Pflanzen aus dem Hochgebirge und der Niederung
T. Koike (1988)
Leaf Structure and Photosynthetic Performance as Related to the Forest Succession of Deciduous Broad‐Leaved Trees1Plant Species Biology, 3
(1987)
Vegetation und Phfinologie der hochalpinen Gipfelflur des Glungezer in Tirol
P. Karlsson (1985)
Effects of water and mineral nutrient supply on a deciduous and an evergreen dwarf shrub: Vaccinium uliginosum L. and V. vitisidaea L.Ecography, 8
(1985)
Effects of water and mineral nutrient supply on a deciduous and an evergreen dwarf shrub: Vaccinium uliginosum L. and V. vitis-idea L
Waltraud Schulze, E. Schulze (1990)
Insect capture and growth of the insectivorous Drosera rotundifolia L.Oecologia, 82
(1989)
Smeets-Scheel A (1989) Functional morphology of mountain plants. Flora
B. Chabot, D. Hicks (1982)
The Ecology of Leaf Life SpansAnnual Review of Ecology, Evolution, and Systematics, 13
F. Bazzaz, J. Harper (1977)
DEMOGRAPHIC ANALYSIS OF THE GROWTH OF LINUM USITATISSIMUMNew Phytologist, 78
P. Reich (1987)
Quantifying plant response to ozone: a unifying theory.Tree physiology, 3 1
T. Jurik (1983)
Reproductive Effort and CO2 Dynamics of Wild Strawberry PopulationsEcology, 64
B. Schmid (1985)
Clonal growth in grassland perennials. II. Growth form and fine-scale colonizing ability.Journal of Ecology, 73
(1980)
The demography of leaves in a permanent pasture
(1963)
Die Leistungsffihigkeit der CO2-Assimilation h6herer Pflanzen unter Laboratoriumsbedingungen und am natfirlichen Standort
F. Fliri (1980)
Das Klima der Alpen im Raume von TirolArctic and alpine research, 12
F. Stuart, Chapin Iii, E. Schulze, H. Mooney (1990)
The Ecology and Economics of Storage in PlantsAnnual Review of Ecology, Evolution, and Systematics, 21
(1979)
Canopy structural and environmental interactions. In: Solbrig OT et al. (eds) Topics in plant population biology, Columbia
C. Körner, M. Diemer (1987)
In situ photosynthetic responses to light, temperature and carbon dioxide in herbaceous plants from low and high altitudeFunctional Ecology, 1
T. Southwood, Valerie Brown, P. Reader (1986)
Leaf palatability, life expectancy and herbivore damageOecologia, 70
J. Mitchley (1988)
Control of Relative Abundance of Perennials in Chalk Grassland in Southern England. III. Shoot PhenologyJournal of Ecology, 76
(1989)
The significance of developmental aspects in plant growth analysis
K. Williams, C. Field, H. Mooney (1989)
Relationships Among Leaf Construction Cost, Leaf Longevity, and Light Environment in Rain-Forest Plants of the Genus PiperThe American Naturalist, 133
C. Sydes (1984)
A COMPARATIVE STUDY OF LEAF DEMOGRAPHY IN LIMESTONE GRASSLANDJournal of Ecology, 72
G. Shaver (1983)
Mineral nutrition and leaf longevity in Ledum palustre: the role of individual nutrients and the timing of leaf mortalityOecologia, 56
P. Miller, W. Stoner (1979)
Canopy Structure and Environmental Interactions
C. Körner (1989)
The nutritional status of plants from high altitudesOecologia, 81
T. Jurik, B. Chabot (1986)
Leaf dynamics and profitability in wild strawberriesOecologia, 69
Tadaki Hirose, M. Werger (1987)
Maximizing daily canopy photosynthesis with respect to the leaf nitrogen allocation pattern in the canopyOecologia, 72
C. Körner, M. Neumayer, Susanna Menendez-Riedl, Angelika Smeets-Scheel (1989)
Functional Morphology of Mountain Plants)Flora, 182
(1984)
Auswirkungen von Mineraldfinger auf alpine Zwergstrfiucher
J. Harper (1989)
The value of a leafOecologia, 80
Leaf longevity in 29 herbaceous plant species of Central Europe was studied by inspecting tagged leaves at weekly intervals. About half of the species are elements of the lowland meadow flora, the other half comprises a representative sample of species from the highest sites where vascular plants grow in the Alps. Shaded and water-stressed sites were avoided. Overall mean leaf longevity did not differ significantly between sites and amounted to 71±5 days at low and 68±4 days at high altitude. Leaf life spans ranged (with no clear altitudinal trend) from 41 to 95 days. Low-altitude forbs and grasses produced several leaf cohorts during their growth period, while most alpine species produced only one. Correlations were found between leaf duration and percent nitrogen content and carbon-cost/carbon-gain ratios, but not with leaf dry mass per unit leaf area and photosynthetic capacity alone. As leaf life spans increase, more C tends to be invested per unit CO 2 uptake and less N is invested per unit invested C. Thus, mass relationships rather than area relationships seem to be linked to leaf life span in these species, suggesting that leaf duration is associated with properties other than the efficiency of light utilization (e.g. mechanical strength, herbivory or pathogen resistance). It seems that the explanations of leaf duration that have been developed for evergreen/deciduous plants and for plants along steep light gradients do not apply to the variable life spans in leaves of perennial herbaceous plants of open habitats.
Oecologia – Springer Journals
Published: Jan 1, 1992
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