Summary
Annual biomass increment and biomass partitioning to leaves, roots and reproduction, and biomass storage in the below-ground bulb was measured in plants of two species of the geophytic genus Bellevalia grown outdoors at three levels of soil moisture. The differences between the species were in accordance with the hypothesis that plants of more arid environments should rely more on internal reserves than plants of more productive environments. In Bellevalia desertorum, a shallow rooted species of the most arid habitats in the Central Negev, leaf and root development during outgrowth at the beginning of winter was rather variable, and followed soil moisture availability to a certain degree. A small portion of its biomass budget was committed to seed production, which varied little among the irrigation regimes. The rest of the biomass was stored in the bulb. The amount of biomass devoted annually to reproduction was mainly determined by the amount of reserves already present in the bulb. In contrast, in B. eigii, which grows in the more productive wadis with its bulb at a depth of 15 to 30 cm, leaf and root growth was not only determined by water availability, but also by initial bulb mass. This resulted in a greater potential relative growth rate than in B. desertorum, but also in a greater risk of accumulating less biomass than it spent in root and leaf construction under poor soil moisture conditions. In this species, reproductive biomass and seed yield were proportional to current biomass gain and, in contrast to B. desertorum, independent of initial bulb mass, provided that the bulb was large enough to initiate flowering.
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References
Abrahamson WG, Caswell H (1982) On the comparative allocation of biomass, energy, and nutrients in plants. Ecology 63:982–991
Al-Mufti MM, Sydes CL, Furness SB, Grime JP, Band SR (1977) A quantitative analysis of shoot phenology and dominance in herbaceous vegetation. J Ecol 65:759–791
Bazzaz FA, Reekie EG (1985) The measurement and meaning of reproductive biomass in plants. In: White J (ed) Studies on Plant Demography. Academic Press, London, pp 373–387
Bloom AJ, Chapin FS, Moony HA (1985) Resource limitation in plants — an economic analogy. Ann Rev Ecol Syst 16:363–392
Boeken B (1986) Utilization of Reserves in some Desert Geophytes. Ph D Thesis, Ben-Gurion University of the Negev, Beer-Sheva, Israel
Bradbury IK, Hofstra G (1986) The partitioning of net energy resources in two populations of Solidago canadensis during a single developmental cycle in southern Ontario. Can J Bot 54:2449–2456
Danin A, Orshan G, Zohary M (1975) The vegetation of the northern Negev and the Judean Desert of Israel. Israel J Bot 24:118–172
Evenari M, Gutterman Y (1976) Observations on the secondary succession of three plant communities in the Negev Desert, Israel I. Artemisietum herba-albae. In: Jacques R (ed) Etudes de Biologie Végétale-Hommage au Prof P Chouard. CNRS, Paris, pp 57–86
Evenari M, Shanan L, Tadmor N (1982) The Negev: the challenge of a desert. Harvard University Press, Cambridge
Feinburn N (1940) A monographic study on the Genus Bellevalia Lapeyr. III. Caryology, taxonomy, geography. Palestine J Bot 1:336–408
Feinbrun-Dothan N (1986) Flora Palestina, Vol IV. Israel Academy of Sciences and Humanities, Jerusalem
Fortanier EJ (1973) Reviewing the length of the generation period and its shortening, particularly in Tulips. Sci Hort 5:107–116
Galil J (1958) Physiological studies on the development of contractile roots in geophytes. Bull Res Counc Israel 6:221–236
Galil J (1980) Kinetics of bulbous plants. Endeavour, New Series 5:15–20
Gross KL, Berner T, Marshall E, Tomcko C (1983) Patterns of resource allocation among five herbaceous perennials. Bull Torr Bot Club 110:345–352
Gutterman Y (1982) Observations on the feeding habit of the Indian crested porcupine (Hystrix indica) and the distribution of some hemicryptophytes and geophytes in the Negev Desert Highlands. J Ar Env 5:261–268
Gutterman Y (1988) An ecological assessment of porcupine activity in a desert biome. In: Ghosh PK, Prakash I (eds)_Ecophysiology of Desert Vertebrates. Scientific Publishers, Jodhpur, India
Harper JL (1977) Population biology of plants. Academic Press, London
Harper JL, Ogden J (1970) The reproductive strategy of higher plants I. The concept of strategy with special reference to Senecio vulgaris L. J Ecol 58:681–698
Heilheimer H, Schulze E-D, Whale DM (1986) Carbon and nitrogen partitioning in the biennial monocarp Artium tomentosum Mill. Oecologia 70:466–474
Holgate P (1967) Population survival and life history phenomena. J Theor Biol 14:1–10
Jaksić FM, Montenegro G (1979) Resource partitioning of Chilean herbs in response to climatic and microclimatic factors. Oecologia 40:81–89
Kim J, Kohout FJ (1975) Analysis of variance and covariance: subprograms ANOVA and ONEWAY. In: Nie H (ed) Statistical package of the social sciences. McGraw-Hill, New York, pp 398–433
Lovett Doust J (1980) Experimental manipulations of patterns of resource allocation in the growth cycle and reproduction of Smyrnum olusatrum L. J Linn Soc 13:155–166
Mooney HA, Billings WD (1960) The annual carbohydrate cycle of alpine plants as related to growth. Am J Bot 47:594–598
Nov-Meir I (1973) Desert ecosystems: environment and producers. Ann Rev Ecol Syst 4:25–51
Odum HT (1983) Systems ecology. J Wiley and Sons, New York
Orians GH, Solbrig OT (1977) A cost-income model of leaves and roots with special reference to arid and semi-arid areas. Am Nat 111:677–690
Pritts MP, Hancock JF (1985) Lifetime biomass partitioning and yield component relationships in the highbush blueberry Vaccinium corymbosum L. (Ericaceae). Am J Bot 72:446–452
Rees AR (1972) The growth of bulbs. Academic Press, London
Risser PG, Cottam G (1968) Carbohydrate cycles in the bulbs of some spring ephemerals. Bull Torr Bot Club 95:359–369
Samson DA, Werk KS (1986) Size-dependent effects in the analysis of reproductive effort in plants. Am Nat 127:667–680
Silvertown JW (1982) Introduction to plant population ecology. Longman, London
Snell TW, Burch DG (1975) The effect of density on resource partitioning in Chamaesyce hirta (Euphorbiaceae). Ecol 56:742–746
Sokal RR, Rohlf FJ (1981) Biometry, Second Edition. Freeman, San Francisco
Stearns SC (1976) Life-history tactics: a review of the ideas. Quart Rev Biol 51:3–47
Van Andel J, Vera F (1977) Reproductive allocation in Senecio sylvaticus and Chamaenerion angustifolium in relation to mineral nutrition. J Ecol 65:747–758
Westoby M (1972) Problem-oriented modelling: a conceptual framework. Desert Biome Information Meeting, Tempe, Arizona
Wigham DF (1984) Biomass and nutrient allocation of Tipularia discolor (Orchidaceae). Oikos 42:303–313
Willson MF (1983) Plant reproductive ecology. Wiley, New York
Zar JH (1974) Biostatistical analysis. Prentice-Hall, New Jersey
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Boeken, B. Life histories of two desert species of the bulbous genus Bellevalia . Oecologia 82, 172–179 (1990). https://doi.org/10.1007/BF00323532
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DOI: https://doi.org/10.1007/BF00323532