Yuccas, yucca moths, and coevolution: A review

The obligate pollination mutualism between yuccas (Agavaceae) and yucca moths (Lepidoptera, Prodoxidae), in which the adult moth pollinates yucca flowers and her progeny feed on developing seeds, is one of the classically cited examples of coevolution. While known since 1872, our understanding of the ecology and evolution of this association has increased dramatically in the past decade. Here I review current information on organismal diversity and phylogenetic relationships, ecological relationships, origin and reversal of the mutualism, and the potential for analyzing patterns of co-speciation and the historical role of coevolution on specific traits in driving diversification in the interaction. Major novel developments in recent years include the recognition of a large species complex of pollinators, previously thought to be one polyphagous species; a majority of all moth species are monophagous. Considerable life history diversity has been unveiled, and mechanisms that maintain a mutualistic equilibrium by preventing overexploitation documented. Phylogenetic and ecological information, including data from other, newly discovered facultative pollinators in the Prodoxidae, have been used to erect a hypothesis for the evolution of obligate mutualism. Application of a molecular clock to phylogenetic data suggests that the plant-moth association arose at least 40 Mya, and that the obligate mutualism evolved very quickly after this event. Two separate events of reversal of mutualism have been identified, involving derived ‘‘cheater’’ moth species that oviposit into fruits resulting from pollination by other pollinator species. This appears to have happened not through selection for cheating, but rather as a byproduct of a phenological shift to an unexploited seed resource, in which case pollination behavior became redundant. Analyses of parallel diversification and character coevolution are hampered by incomplete phylogenetic information at the species level, especially for the plants, but also for the pollinators. Available data indicate considerable deviation from strict co-speciation, and no evident examples of this process. Analyses of the role of coevolutionary processes in driving the diversification of yuccas and yucca moths will be possible once fully resolved phylogenies become available.

[1]  G. Bush,et al.  Speciation in fig pollinators and parasites , 2002, Molecular ecology.

[2]  H. Krenn,et al.  Origin of a complex key innovation in an obligate insect–plant mutualism , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[3]  F. Pompanon,et al.  Speciation in the globeflower fly Chiastocheta spp. (Diptera: Anthomyiidae) in relation to host plant species, biogeography, and morphology. , 2002, Molecular phylogenetics and evolution.

[4]  G. Weiblen,et al.  Molecular phylogenies of fig wasps: partial cocladogenesis of pollinators and parasites. , 2001, Molecular phylogenetics and evolution.

[5]  M. Brock,et al.  Coexistence of mutualists and antagonists: exploring the impact of cheaters on the yucca – yucca moth mutualism , 2001, Oecologia.

[6]  K. A. Segraves,et al.  Phylogeography of the yucca moth Tegeticula maculata: the role of historical biogeography in reconciling high genetic structure with limited speciation , 2001, Molecular ecology.

[7]  C. A. Machado,et al.  Phylogenetic relationships, historical biogeography and character evolution of fig-pollinating wasps , 2001, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[8]  F. Pompanon,et al.  Variation in predation costs with Chiastocheta egg number on Trollius europaeus: how many seeds to pay for pollination? , 2001 .

[9]  R. Gomulkiewicz,et al.  Hot Spots, Cold Spots, and the Geographic Mosaic Theory of Coevolution , 2000, The American Naturalist.

[10]  O. Pellmyr,et al.  Systematics of the Yucca Moth Genus Parategeticula (Lepidoptera: Prodoxidae), with Description of Three Mexican Species , 2000 .

[11]  J. Leebens-Mack,et al.  Pollen dispersal in Yucca filamentosa (Agavaceae): the paradox of self-pollination behavior by Tegeticula yuccasella (Prodoxidae). , 2000, American journal of botany.

[12]  K. Bremer Early Cretaceous lineages of monocot flowering plants. , 2000, Proceedings of the National Academy of Sciences of the United States of America.

[13]  John P. Huelsenbeck,et al.  A BAYESIAN FRAMEWORK FOR THE ANALYSIS OF COSPECIATION , 2000, Evolution; international journal of organic evolution.

[14]  D. L. Venable,et al.  Macroevolution of insect-plant associations: the relevance of host biogeography to host affiliation. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[15]  Theodore H. Fleming,et al.  MUTUALISTIC INTERACTIONS BETWEEN UPIGA VIRESCENS (PYRALIDAE), A POLLINATING SEED-CONSUMER, AND LOPHOCEREUS SCHOTTII (CACTACEAE) , 1999 .

[16]  J. Leebens-Mack,et al.  Forty million years of mutualism: evidence for eocene origin of the yucca-yucca moth association. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[17]  Jaeger,et al.  Evolution of oviposition strategies and speciation in the globeflower flies Chiastocheta spp. (Anthomyiidae) , 1999 .

[18]  O. Pellmyr,et al.  Yucca moth oviposition and pollination behavior is affected by past flower visitors: evidence for a host-marking pheromone , 1999, Oecologia.

[19]  M. Pfosser,et al.  Phylogenetics of Hyacinthaceae based on plastid DNA sequences , 1999 .

[20]  Bao,et al.  Cheating in mutualism: defection of Yucca baccata against its yucca moths , 1998 .

[21]  Brian D. Farrell,et al.  "Inordinate Fondness" explained: why are there So many beetles? , 1998, Science.

[22]  A. E. Weis,et al.  Inbreeding and outcrossing in Yucca whipplei: consequences for the reproductive success of plant and pollinator , 1998 .

[23]  Theodore H. Fleming,et al.  The evolution of obligate pollination mutualisms: senita cactus and senita moth , 1998, Oecologia.

[24]  J. Hamrick,et al.  Genetic diversity and population structure of Yucca filamentosa (Agavaceae). , 1998, American journal of botany.

[25]  A. Vogler,et al.  Revealing the factors that promote speciation , 1998 .

[26]  J. Addicott,et al.  Regulation of mutualism between yuccas and yucca moths : is oviposition behavior responsive to selective abscission of flowers ? , 1998 .

[27]  J. Bronstein,et al.  Costs of two non-mutualistic species in a yucca/yucca moth mutualism , 1997, Oecologia.

[28]  J. X. Becerra Insects on plants: macroevolutionary chemical trends in host use. , 1997, Science.

[29]  Thomas P. Clausen,et al.  Do Biochemical Exaptations Link Evolution of Plant Defense and Pollination Systems? Historical Hypotheses and Experimental Tests with Dalechampia Vines , 1997, The American Naturalist.

[30]  J. Thompson,et al.  Evolution of Pollination and Mutualism in the Yucca Moth Lineage , 1996, The American Naturalist.

[31]  B. Simpson,et al.  PHYLOGENY OF AGAVACEAE BASED ON ITS RDNA SEQUENCE VARIATION , 1996 .

[32]  C. A. Machado,et al.  Molecular phylogenies of figs and their pollinator wasps , 1996 .

[33]  M. Kozlov Incurvariidae and Prodoxidae (Lepidoptera) from Siberia and the Russian Far East, with descriptions of two new species. , 1996 .

[34]  Robert H. Webb,et al.  Grand Canyon, A Century of Change: Rephotography of the 1889-1890 Stanton Expedition , 1996 .

[35]  J. Leebens-Mack,et al.  Non-mutualistic yucca moths and their evolutionary consequences , 1996, Nature.

[36]  J. Addicott Cheaters in yucca/moth mutualism , 1996, Nature.

[37]  J. Neff,et al.  Multiple origins of the yucca-yucca moth association. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[38]  J. Thompson,et al.  The Coevolutionary Process , 1994 .

[39]  J. Thompson,et al.  Mitochondrial Dna Phylogeny of the Prodoxidae (Lepidoptera: Incurvarioidea) Indicates Rapid Ecological Diversification of Yucca Moths , 1994 .

[40]  O. Pellmyr,et al.  Evolutionary stability of mutualism between yuccas and yucca moths , 1994, Nature.

[41]  Y. Linhart,et al.  Reproductive consequences of interactions between Yucca glauca (Agavaceae) and Tegeticula yuccasella (Lepidoptera) in Colorado , 1994 .

[42]  R. Page Maps between trees and cladistic analysis of historical associations among genes , 1994 .

[43]  C. Mitter,et al.  Diversification of Carnivorous Parasitic Insects: Extraordinary Radiation or Specialized Dead End? , 1993, The American Naturalist.

[44]  R. P. Chávez,et al.  Estudio palinológico de las floras fósiles del Mioceno Inferior y principios del Mioceno Medio de la región de Pichucalco, Chiapas, México , 1993 .

[45]  A. Tyre,et al.  Facultative non-mutualistic behaviour by an “Obligate” mutualist: “Cheating” by Yucca moths , 1993, Oecologia.

[46]  Edward H. Smith The Grape Phylloxera—A Celebration of Its Own , 1992 .

[47]  O. Pellmyr,et al.  Biology and systematics of Greya Busck and Tetragma , 1992 .

[48]  J. N. Thompson,et al.  Multiple occurrences of mutualism in the yucca moth lineage. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[49]  J. Bull,et al.  Distinguishing mechanisms for the evolution of co-operation. , 1991, Journal of theoretical biology.

[50]  W. D. Tidwell,et al.  Protoyucca shadishii gen. et sp. nov., An arborescent monocotyledon with secondary growth from the Middle Miocene of Northwestern Nevada, U.S.A. , 1990 .

[51]  D. Wagner,et al.  A new Prodoxus from Yucca baccata: first report of a leaf-mining prodoxine (Lepidoptera: Prodoxidae). , 1988 .

[52]  Brian D. Farrell,et al.  The Phylogenetic Study of Adaptive Zones: Has Phytophagy Promoted Insect Diversification? , 1988, The American Naturalist.

[53]  E. Nielsen,et al.  The first southern hemisphere prodoxid and the phylogeny of the Incurvarioidea (Lepidoptera) , 1985 .

[54]  J. Powell Biological Interrelationships of Moths and Yucca Schottii , 1984 .

[55]  D. Brooks,et al.  Evolutionary biology of parasites. , 1981, Monographs in population biology.

[56]  R. Trivers The Evolution of Reciprocal Altruism , 1971, The Quarterly Review of Biology.

[57]  P. Raven,et al.  BUTTERFLIES AND PLANTS: A STUDY IN COEVOLUTION , 1964 .

[58]  P. Redfearn,et al.  Flora of Missouri , 1964 .

[59]  E. Mayr Animal Species and Evolution , 1964 .

[60]  John W. Thieret,et al.  Flora of Alberta. , 1960 .

[61]  P. Rau The Yucca Plant, Yucca filamentosa, and the Yucca Moth, Tegeticula (Pronuba) yuccasella Riley: An Ecologico-Behavior Study , 1945 .

[62]  E. Layard Yuccas under Cultivation , 1880, Nature.

[63]  J. Bronstein,et al.  Infertile seeds ofYucca schottii: A beneficial role for the plant in the yucca-yucca moth mutualism? , 2005, Evolutionary Ecology.

[64]  O. Pellmyr The cost of mutualism: interactions between Trollius europaeus and its pollinating parasites , 2004, Oecologia.

[65]  G. Weiblen How to be a fig wasp. , 2002, Annual review of entomology.

[66]  A. García-Mendoza Una nueva especie de Yucca (Agavaceae) de Oaxaca y Puebla, México , 1998 .

[67]  D. Murawski Moths come to light , 1997 .

[68]  O. Pellmyr,et al.  Genetic consequences of specialization: yucca moth behavior and self-pollination in yuccas , 1997, Oecologia.

[69]  T. Burgess,et al.  Sonoran Desert Plants: An Ecological Atlas , 1995 .

[70]  A. Tyre,et al.  Cheating in an obligate mutualism : how often do yucca moths benefit yuccas ? , 1995 .

[71]  R. Bye,et al.  Diversity and origins of the phanerogamic flora of Mexico. , 1993 .

[72]  H. G. Baker YUCCAS AND YUCCA MOTHS-A HISTORICAL COMMENTARY' , 1986 .

[73]  S. Sutherland THE POLLINATION BIOLOGY OF PANICULATE AGAVES: DOCUMENTING THE IMPORTANCE OF MALE FITNESS IN PLANTS. , 1982 .

[74]  H. S. Gentry,et al.  The Agave Family in Sonora , 1973 .

[75]  D. Davis A Revision of the Moths of the Subfamily Prodoxinae (Lepidoptera: Incurvariidae) , 1967 .

[76]  Clair A. Brown,et al.  Vegetation of the Outer Banks of North Carolina , 1959 .

[77]  Wolfdietrich Eichler,et al.  Some rules in ectoparasitism , 1948 .

[78]  N. L. Britton,et al.  The Bahama Flora , 1921, Nature.

[79]  C. Mohr Plant life of Alabama , 1901 .

[80]  J. Boll Ueber die Befruchtung der nordamerikanischen Yucca -Arten , 1876 .