2007
DOI: 10.1890/06-1495
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Bet Hedging in a Guild of Desert Annuals

Abstract: Evolutionary bet hedging encapsulates the counterintuitive idea that organisms evolve traits that reduce short-term reproductive success in favor of longer-term risk reduction. It has been widely investigated theoretically, and many putative examples have been cited including practical ones such as the dormancy involved in microbe and weed persistence. However, long-term data on demographic variation from the actual evolutionarily relevant environments have been unavailable to test for its mechanistic relation… Show more

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Cited by 438 publications
(507 citation statements)
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“…Banks of diapausing states contribute to prevent population extinction, supporting long-term species diversity, which could be a key aspect in allowing competitor coexistence (Chesson and Warner 1981;Cáceres 1997), while serving as a reservoir of genetic diversity. Also, incomplete termination of diapause has been considered a bet-hedging strategy of the individual producing dormant offspring, thus spreading risks (Venable 2007;García-Roger et al 2014).…”
Section: Introductionmentioning
confidence: 99%
“…Banks of diapausing states contribute to prevent population extinction, supporting long-term species diversity, which could be a key aspect in allowing competitor coexistence (Chesson and Warner 1981;Cáceres 1997), while serving as a reservoir of genetic diversity. Also, incomplete termination of diapause has been considered a bet-hedging strategy of the individual producing dormant offspring, thus spreading risks (Venable 2007;García-Roger et al 2014).…”
Section: Introductionmentioning
confidence: 99%
“…However, empirical evidence for bet hedging remains scant [12]. Evidence is restricted to demonstrations of interspecific divergence [13] or population differentiation [14,15] in putative bet-hedging traits across environments that differ in predictability, or the documentation of the evolution of candidate bet-hedging traits under conditions in which they may be advantageous [16,17], with very few strong studies confirming fitness benefits of putative bethedging traits under fluctuating conditions [18][19][20][21]. Tests of bet hedging under field conditions are difficult because they require evaluating both environmental variance and its fitness effects over multiple generations.…”
Section: Introductionmentioning
confidence: 99%
“…This offers the chance to colonize new sites, free from sibling competition or other local sources of stress, whereas the remainder of the offspring stays in the same habitat (Gadgil, 1971;Levin & al., 1984;Schoen & Lloyd, 1984;Venable & Brown, 1993;Imbert & Ronce, 2001). Various authors have proposed that a bet-hedging strategy is likely to be favored in temporally variable environments because it increases geometric fitness, even if individual phenotypes may have a relatively lower mean fitness (Gillespie, 1977;Venable, 1985;Venable & al., 1987;Venable, 2007;Simons, 2011;Tielbörger & al., 2012).…”
Section: Introductionmentioning
confidence: 99%
“…This offers the chance to colonize new sites, free from sibling competition or other local sources of stress, whereas the remainder of the offspring stays in the same habitat (Gadgil, 1971;Levin & al., 1984;Schoen & Lloyd, 1984;Venable & Brown, 1993;Imbert & Ronce, 2001). Various authors have proposed that a bet-hedging strategy is likely to be favored in temporally variable environments because it increases geometric fitness, even if individual phenotypes may have a relatively lower mean fitness (Gillespie, 1977;Venable, 1985;Venable & al., 1987;Venable, 2007;Simons, 2011;Tielbörger & al., 2012).Among members of Asteraceae, the occurrence of heterocarpy is relatively high (Mandák, 1997;Imbert, 2002). Heterocarpic species in this family usually produce different achene morphs within the same capitulum (reviewed in Imbert, 2002), although exceptions in which achene variation occurs between aerial and subterranean capitula are known in Gymnarrhena micrantha (Koller & Roth, 1964) and Catananche lutea (Ruiz de Clavijo, 1995;Ruiz de Clavijo & Jiménez, 1998), and in Centaurea melitensis (Porras & Muñoz, 2000) between cleistogamous and chasmogamous capitula.…”
mentioning
confidence: 99%