Abstract
The leaf mineral nutrient content, its seasonal variation and its eco-physiological significance in tree species of tropical plant communities is reviewed. Leaf span of tropical trees ranges from 6–9 months in deciduous species (rain-green type) up to little more than one year in evergreen species (annual evergreens). Leaves of deciduous species are characterized by lower specific leaf weights and higher nitrogen and phosphorus content per unit dry weight. Differences in leaf nutrient content are minimized when expressed on an area basis, this should be the unit for seasonal comparisons because of its relative constancy after full leaf expansion. Photosynthesis is related to leaf nitrogen content, but future studies should include a fractionation of nitrogen in order to differentiate the accumulation of nitrogenous substances not metabolically related to photosynthesis. The study of nutrient use efficiency in production and growth is emphasized to understand the processes of selection in nutrient rich and nutrient poor environments.
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References
Addicott FT (1976) Abscission strategies in the behavior of tropical trees. In Tomlinson PB and Zimmermann MH, eds. Tropical trees as living systems, pp. 381–398. Cambridge, Cambridge University Press.
Andreeva TF and Avdeeva TA (1970) Fraction I protein and the photosynthetic activity of leaves, Fiziol. Razt. 17, 225–233.
Beadle NCW (1966) Soil phosphate and its role in molding segments of the Australian flora and vegetation, with special reference to xeromorphy and sclerophylly, Ecology 47, 992–1007.
Chabot BF and Hicks DJ (1982) The ecology of leaf life spans, Ann. Rev. Ecol. Syst. 13, 229–259.
Chapin FS III (1980) The mineral nutrition of wild plants, Ann. Rev. Plant Physiol. 11, 233–260.
Chapin FS III and Kedrowski RA (1983) Seasonal changes in nitrogen and phosphorus fractions and autumn retranslocation in evergreen and deciduous Taiga trees, Ecology 64, 376–391.
Christie EK and Moorby J (1975) Physiological responses of semiarid grasses I. The influence of phosphorus supply on growth and phosphorus absorption, Austr. J. Agric. Res. 26, 423–436.
Cuenca G (1976) Balance nutricional de a1gunas lenosas de dos ecosistemas contrastantes: Bosque nublado y Bosque declduo, Tesis de Licenciatura, Escuela de Biolog1a, UCV, Caracas.
Delgado M and Medina E (1978) Leaf succulence and potassium accumulation. In Singh JS and Gopal B, eds. Glimpses of Ecology, pp. 417–424. hit. Sci. Publ., Jaipur, Sidia
Epstein E (1972) Mineral nutrition of plants: principles and perspectives. John Wiley and Sons, Inc. New York.
Ernst W (1975) Variation in the mineral contents of leaves of trees in Miombo woodland in South Central Africa, J. Ecology 63, 801–807.
Evans GC (1972) The quantitative analysis of plant growth. University of California Press, Berkeley.
Field C (1981) Leaf age effects on the carbon gain of individual leaves in relation to microsite. In Margaris NS and Mooney HA, eds. Components of productivity of Mediterranean regions: basis and applied aspects, pp. 41–50. Dr. W. Junk, The Hague.
Fischer RA (1968) Stomatal opening:role of potassium uptake by guard cells, Science 160, 784–785.
Furch K and Klinge H (1978) Towards a regional characterization of the biogeochemistry of alkali and alkali-earth metals in northern South America, Acta Cient. Ven. 29, 434–444.
Go1ley F. McGinnis JT, Clements RG, Child GI and Duever MJ (1975) Mineral cycling in a tropical moist forest ecosystem. Athens, University of Georgia Press.
Gray JT (1983) Nutrient use by evergreens and deciduous shrubs in Southern California. I. Community nutrient cycling and nutrient use efficiency, J. Ecology 71, 21–41.
Grimm U and Fassbender HW (1981) Ciclos bioquímicos en un ecosistema forestal de los Andes Occidentales de Venezuela. I. Inventario de las reservas orgánicas y minerales (N, P, K, Ca, Mg, Mn, Fe, Al, Na), Turrialba 31, 27–36.
Grubb PJ (1977) Control of forest growth and distribution on wet tropical mountains with special reference to mineral nutrition, Ann. Rev. Ecol. Syst. 8, 83–107.
Gulmon SL and Chu C (1981) The effects of light and nitrogen on photosynthesis, leaf characteristics, and dry matter allocation in the Chaparral shrub, Diplacus aurantiacus, Oecologia 49, 207–212.
Keller T 1972. Gaseous exchange of forest trees in relation to some edaphic factors, Photosynthetica 6: 197–206.
Kinzel H (1982) Pflanzenoekologie and Mineralstoffwechsel. Eugen Ulmer Verlag. Stuttgart.
Klinge H (1976) Bilanzierung von Hauptnaehrstoffen im Oekosystemen tropischer Regenwal, Biogeographica 7, 59–76.
Koerner CH, Scheel JA and Bauer H (1979) Maximum diffusive conductance in vascular plants, Photosynthetica 13, 45–82.
Kramer PJ and Kozlowski TT (1979) Physiology of woody plants. Academic Press New York.
Larcher W (1961) Jahresgang der Assimilations und Respirationsvermoegens von Olea Europaea L. ssp. sativa Hoff., et Link., Quercus ilex L. und Quercus pubescens Willd. aus dem noerdlichen Gardaseegebiet, Planta 56, 575–606.
Larcher W (1969) The effect of environmental and physiological variables on the carbon dioxide exchange of trees, Photosynthetica 3, 167–198.
Linder S, McDonald J and Lohammar T (1981) Effect of nitrogen status and irradiance during cultivation on photosynthesis and respiration in birch seedlings (Betula verrucosa Ehrh.), Technical report No. 12, 19 p. Energy Forestry Project, Swedish Agricultural University.
Loetsch B (1971) Sukkulenz und Kaliumspeicherung von Stickstoffmangel Pflanzen, Z. Pflanzenphysiol. 64, 393–399.
Loneragan JF and Snowball K (1969) Calcium requirements of plants, Austr. J. Agrie. Res. 20, 465–478.
Loomis WD (1974) Overcoming problems of phenolics and quinones in the isolation of plant enzymes and organells, Methods in Enzymology 31, 528–544.
Loveless AR (1961) A nutritional interpretation of sclerophylly based on differences in the chemical composition of sclerophyllous and mesophytic leaves, Ann. Bot., ns, 25, 168–183.
Marin D and Medina E (1981) Leaf duration, nutrient content and sclerophylly of very dry tropical forest trees, Acta Cient. Ven. 32, 508–514.
McDonald J, Lohammar T and Linder S (1981) Effect of leaf nitrogen content on CO2 exchange in a number of Salix clones, Technical Report No. 16. Energy Forestry Project, Agricultural University Sweden. 19 p.
Medina E (1970) Relationships between nitrogen level, photosynthetic capacity, and carboxydismutase activity in Atriplex patula leaves, Carnegie Institution Year Book 69, 655–662.
Medina E (1981) Nitrogen content, leaf structure and photosynthesis in higher plants. Report to UNEP Study Group on Photosynthesis and Bioproductivity. London.
Medina E (1982) Physiological ecology of neotropical savanna plants. In Huntley BJ and Walker BH, eds. Ecology of Tropical Savannas, pp. 308–335. Springer-Verlag Berlin.
Medina E, Cuevas E and Weaver P (1981) Composicion foliar y transpiracion de especies leñosas de Pico del Este, Sierra de Luquillo, Puerto Rico, Acta Cientifica Venezolana 32, 159–165.
Medina E. Mendoza A and Montes R (1978) Nutrient balance and organic matter production in the Trachypogon savannas of Venezuela. Tropical Agric. ( Trinidad ) 55, 243–253.
Medway Lord (1972) Phenology of a tropical rain forest in Malaya Biol. J. Linn. Soc. 4, 117–146.
Mengel K and Kirkby EA (1982) Principles of Plant nutrition. 3rd Edition. International Potash Institute. Bern, Switzerland.
Migus WN and Hunt LA (1980) Gas exchange rates and nitrogen concentrations in two winter wheat cultivars during the grain-filling period, Canadian J. Bot. 58, 2110–2116.
Monasterio M and Sarmiento G (1976) Phenological strategies of plant species in the tropical savanna and the semitleciduous forest of the Venezuelan Llanos, J. Biogeography 3, 325–356.
Mooney HA, Ferrar PJ and Slatyer RO (1978) Photosynthetic capacity and carbon allocation patterns in diverse growth forms of Eucalyptus, Oecologia (Berl.) 36, 103–111.
Mooney HA and Gulmon SL (1982) Constraints on leaf structure and function in reference to herbivory, Bioscience 32, 198–206.
Mooney H and Rundel P (1979) Nutrient relations of the evergreen shrub, Adenostoma fasciculatum. in the California Chaparral, Bot. Gaz. 140, 109–113.
Montes R and Medina E (1977) Seasonal changes in nutrient content of leaves of savanna trees with different ecological behavior, Geo-Eco-Trop 1, 295–307.
Mothes K (1932) Ernaehrung, Struktur und Transpiration. Ein Beitrag zur Kausalanalyse der Xeromorphosen, Biol. Zb. 52, 93–223.
Motta N and Medina E (1978) Early growth and photosynthesis of tomato (Lycopersicum esculentum L.) under nutritional deficiencies, Turrialba 28, 135–141.
Murty KS, Smith TA and Bould C (1971) The relation between the putrescine content and potassium status of Black Currant leaves, Ann. Bot. 35 687–695.
Natr L (1972) Influence of mineral nutrients on photosynthesis of higher plants, Photosynthetica 6, 80–99.
Natr L (1975) Influence of mineral nutrition on photosynthesis and the use of assimilates. In Cooper JP, ed. Photosynthesis and Productivity in different Environments, International Biological Programme 3, pp. 537–555. Cambridge University Press. Cambridge.
Nevins DJ and Loomis RS (1970) Nitrogen nutrition and photosynthesis in sugar beet (Beta vulgaris L.), Crop Science 10, 21–25.
Peace WJ and MacDonald FD (1981) An investigation of the leaf anatomy, foliar mineral levels, and the water relations of trees of a Sarawak forest, Biotropica 13, 100–109.
Peoples RP and Koch DW (1979) Role of potassium in carbon dioxide assimilation in Medicago sativa L, Plant Physiol. 63, 878–881.
Proctor J and Woodwell SRJ (1975) The ecology of serpentine soils, Adv. Ecol. Res. 9, 255–366.
Ryan DF and Bormann FH (1982) Nutrient resorption in northern hardwood forests, Bioscience 32: 29–32.
Saeki T and Nomoto N (1958) On the seasonal change of photosynthetic activity of some deciduous and evergreen broadleaf trees, Bot. Mag. (Tokyo) 71, 235–241.
Sasahara T (1982) Changes in size and number of mesophyll cells, nitrogen content and photosynthesis with leaf order in Brassica spp, Ann. Bot. 50, 379–383.
Schlesinger WH and Chabot BF (1977) The use of water and minerals by evergreen and deciduous shrubs in Okefenokee swamp, Bot. Gaz. 138, 490–497.
Seth SK and Bhatnagar HP (1960) Interrelations between mineral constituents of foliage, soil properties, site quality and regeneration status in some Shorea robusta forests, Indian Forester 86, 590–601.
Small E (1972) Photosynthetic rates in relation to nitrogen cycling as an adaptation to nutrient deficiency in peat bog plants. Can. J. Bot. 50, 2227–2233.
Sobrado MA and Medina E (1980) General morphology, anatomical structure and nutrient content of sclerophyllous leaves of the “Bana” vegetation of Amazonas, Qecologia (Berl.) 45, 341–345.
Sprick E (1979) Composicitm mineral y contenido de fenoles foliares de especies lenosas de tres bosques contrastantes de la region Amazftnica. Tesis de Licenciatura, Escuela de Biologia, UCV, Caracas.
Staaf H (1982) Plant nutrient changes in beech leaves during senescence as influenced by site characteristics. Acta Cfecologia, Oecol. Plant. 3, 161–170.
Stocker O (1931) Transpiration und Wasserhaushalt in verschiedenen Klimazonen. I. Untersuchungen an der arktischen Baumgrenze in Schwedisch Lappland. Jahrb. wiss. Bot. 75, 494–549.
Stoecker G and Hacker E (1976) Untersuchungen ueber Stickstoff-Blattspiegel-Werte einiger Bodenpflanzen naturnaher Berg-Fichtenwaelder. Saisonale Veraenderungen und artspezifischen Relationen, Flora 165: 65–94.
Tamm CO (1951) Seasonal variation in composition of birch leaves, Physiologia Plantarum 4: 461–469.
Tanner EVJ (1977) Four montane rainforests of Jamaica: A quantitative characterization of the floristics, the soils and the foliar mineral levels, and a discussion of the interrelations. J. Ecology 65: 883–918.
Thomas WA and Grigal DF (1976) Phosphorus conservation by evergreenness on mountain laurel. Oikos 27, 19–26.
Tukey HB (1970) The leaching of substances from plants. Ann. Rev. Plant Physiol. 21, 305–324.
Wareing PF (1977) Growth substances and integration in the whole plant. In Jennings DH, ed. Integration of activity in the higher plant, pp. 337–366, Symposium XXXI, Society for Experimental Biology. Cambridge University Press. Cambridge, UK.
Walter H (1973) Die Vegetation der Erde. Die tropischen und subtropischen Zonen, IIIe. Auflage VEB Gustav Fischer Verlag, Jena.
Woodwell GM (1974) Variation of nutrient content of leaves of Quercus alba, Quercus coccina, and Pinus rigida in the Brookhaven forest from bud-break to abscission, Am. J. Brot. 61, 749–753.
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Medina, E. (1984). Nutrient Balance and Physiological Processes at the Leaf Level. In: Medina, E., Mooney, H.A., Vázquez-Yánes, C. (eds) Physiological ecology of plants of the wet tropics. Tasks for vegetation Science, vol 12. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-7299-5_11
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DOI: https://doi.org/10.1007/978-94-009-7299-5_11
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