Is the threshold size for flowering in Cynoglossum officinale fixed or dependent on environment?

TOM J. DE JONG; LEENTJE GOOSEN-DE ROO; PETER G. L. KLINKHAMER

doi:10.1046/j.1469-8137.1998.00118.x

Abstract

In the monocarpic perennial Cynoglossum officinale L. the probability of flowering is related to the size of the plant. In previous work it was observed that this relation varies between years. We hypothesized that variable conditions during the winter, the period of vernalization, explain this variation.

We collected plants from the field in autumn and placed these under different simulated winter conditions in a climate room. In contrast to our hypothesis, the probability of initiating flowering at a given size was not affected by: (a) the temperature during the cold period, (b) the duration of the cold period, or (c) the application of a plant hormone (GA3) or an inhibitor of gibberellin synthesis (paclobutazol) during the cold period. Winter cold is not necessary for floral initiation, and is only required for elongation of the inflorescence. It is unlikely that winter temperature affects the fraction of plants flowering.

Subsequent morphological investigation of flower development in material collected in the field showed that large plants had primordial inflorescences well before vernalization, sometimes as early as August. In plants grown from seeds under constant conditions in a climate room, the probability of initiating the inflorescence differed for plants grown at various temperatures (34·1% at 15°C, 100% at 20°C, and 95% at 25°C). Our results suggest that environmental conditions in August and September, up to 10 months before actual flowering, could affect the fraction of flowering plants.

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Simons, Andrew M and Johnston, Mark O 2000. Plasticity and the genetics of reproductive behaviour in the monocarpic perennial, Lobelia inflata (Indian tobacco). Heredity, Vol. 85, Issue. 4, p. 356.

Bassin, Seraina Kölliker, Roland Cretton, Christine Bertossa, Mario Widmer, Franco Bungener, Patrick and Fuhrer, Jürg 2004. Intra-specific variability of ozone sensitivity in Centaurea jacea L., a potential bioindicator for elevated ozone concentrations. Environmental Pollution, Vol. 131, Issue. 1, p. 1.

PFEIFER, MARION HEINRICH, WOLFGANG and JETSCHKE, GOTTFRIED 2006. Climate, size and flowering history determine flowering pattern of an orchid. Botanical Journal of the Linnean Society, Vol. 151, Issue. 4, p. 511.

Sletvold, Nina and M. Grindeland, John 2007. Fluctuating selection on reproductive timing in Digitalis purpurea. Oikos, Vol. 116, Issue. 3, p. 473.

BERNER, D. and BLANCKENHORN, W. U. 2007. An ontogenetic perspective on the relationship between age and size at maturity. Functional Ecology, Vol. 21, Issue. 3, p. 505.

Kuss, Patrick Rees, Mark Ægisdóttir, Hafdís Hanna Ellner, Stephen P. and Stöcklin, Jürg 2008. Evolutionary demography of long‐lived monocarpic perennials: a time‐lagged integral projection model. Journal of Ecology, Vol. 96, Issue. 4, p. 821.

Williams, Jennifer L. Auge, Harald and Maron, John L. 2008. Different gardens, different results: native and introduced populations exhibit contrasting phenotypes across common gardens. Oecologia, Vol. 157, Issue. 2, p. 239.

Kagaya, Mitsuko Tani, Takashi and Kachi, Naoki 2009. Variation in flowering size and age of a facultative biennial, Aster kantoensis (Compositae), in response to nutrient availability. American Journal of Botany, Vol. 96, Issue. 10, p. 1808.

Rose, Karen E. Atkinson, Rebecca L. Turnbull, Lindsay A. and Rees, Mark 2009. The costs and benefits of fast living. Ecology Letters, Vol. 12, Issue. 12, p. 1379.

Williams, Jennifer L. 2009. Flowering Life‐History Strategies Differ between the Native and Introduced Ranges of a Monocarpic Perennial. The American Naturalist, Vol. 174, Issue. 5, p. 660.

Jacquemyn, Hans Brys, Rein and Jongejans, Eelke 2010. Size‐dependent flowering and costs of reproduction affect population dynamics in a tuberous perennial woodland orchid. Journal of Ecology, Vol. 98, Issue. 5, p. 1204.

WANG, Yun HU, Li-Juan DUAN, Yuan-Wen and YANG, Yong-Ping 2010. Altitudinal Variations in Reproductive Allocation of <I>Bergenia purpurascens</I> (Saxifragaceae). Acta Botanica Yunnanica, Vol. 32, Issue. 3, p. 270.

Brys, Rein Shefferson, Richard P. and Jacquemyn, Hans 2011. Impact of herbivory on flowering behaviour and life history trade-offs in a polycarpic herb: a 10-year experiment. Oecologia, Vol. 166, Issue. 2, p. 293.

Giménez, Raúl Sorlino, Daniel M. Bertero, Héctor D. and Ploschuk, Edmundo L. 2013. Flowering regulation in the facultative biennial Oenothera biennis L.: Environmental effects and their relation to growth rate. Industrial Crops and Products, Vol. 44, Issue. , p. 593.

Shemesh, H. Novoplansky, A. and Elzenga, T. 2013. Branching the risks: architectural plasticity and bet‐hedging in Mediterranean annuals. Plant Biology, Vol. 15, Issue. 6, p. 1001.

Gao, Hui Gao, YuBao and He, XingDong 2014. Impacts of grazing and mowing on reproductive behaviors of Stipa grandis and Stipa krylovii in a semi-arid area. Journal of Arid Land, Vol. 6, Issue. 1, p. 97.

Ida, Takashi Y. Harder, Lawrence D. Kudo, Gaku and Rafferty, Nicole 2015. The consequences of demand‐driven seed provisioning for sexual differences in reproductive investment inThalictrum occidentale(Ranunculaceae). Journal of Ecology, Vol. 103, Issue. 1, p. 269.

van der Meer, Sascha Jacquemyn, Hans Carey, Peter D. and Jongejans, Eelke 2016. Recent range expansion of a terrestrial orchid corresponds with climate-driven variation in its population dynamics. Oecologia, Vol. 181, Issue. 2, p. 435.

Barry, Kathryn E. de Kroon, Hans Dietrich, Peter Stanley Harpole, W. Roeder, Anna Schmid, Bernhard Clark, Adam T. Mayfield, Margaret M. Wagg, Cameron and Roscher, Christiane 2019. Mechanisms underlying the relationship between biodiversity and ecosystem function. Vol. 61, Issue. , p. 265.

Liu, Wenting 2020. Individual reproductive strategy of Stipa breviflora under different grazing pressures. Grassland Science, Vol. 66, Issue. 3, p. 174.

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Is the threshold size for flowering in Cynoglossum officinale fixed or dependent on environment?

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Is the threshold size for flowering in Cynoglossum officinale fixed or dependent on environment?

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