Publications

2024

94.Woodrow, C., N. Jafferis, Y. Kang, M. Vallejo-Marin. 2024. Buzz-pollinating bees deliver thoracic vibrations to flowers through periodic biting. Current Biology. https://doi.org/10.1016/j.cub.2024.07.044

Highlighted in Science: Head-banging bumble bees bite flowers to shake loose more pollen. https://doi.org/doi: 10.1126/science.zrx26s4
Bee biting and buzz pollination
93.Scaccabarozzi, D., Guzzetti, L., Pioltelli, E., Brundrett, M., Aromatisi, A., Polverino, G, Vallejo-Marin, M., Cozzolino, S., Ren, Z.X. Evidence of introduced honeybees (Apis mellifera) as pollen wasters in orchid pollination. Scientific Reports 14, 14076 (2024). https://doi.org/10.1038/s41598-024-64218-xHoneybees
92.Salony, S. Clo, J., Vallejo-Marin, M., Kolar, F. 2024. Establishment of polyploidy in natural populations of Mimulus guttatus. Plant Systematics and Evolution. 310 (30). https://doi.org/10.1007/s00606-024-01914-1Polyploid pollination
91.Vallejo-Marin, M., D. L. Field, J. Fornoni, D. Montesinos, C. A. Dominguez, I. Baltazar, G. C. Vallejo, C. Woodrow, R. Ayala, and N. Jafferis. 2024. Biomechanical properties of non-flight vibrations produced by bees. Journal of Experimental Biology. 227(12): jeb247330. https://doi.org/10.1242/jeb.247330
Read the JExB Highlight here: Knight (2024)
Polyploid pollination
 ScienceCast
90.

Moore, C. D., D.I. Farman, T. Särkinen, P. C. Stevenson, M. Vallejo‐Marín. 2024. Floral scent changes in response to pollen removal are rare in buzz‐pollinated Solanum. Planta. 260(15): 1-12. https://doi.org/10.1007/s00425-024-04403-4

Polyploid pollination 
89.

Schmickl, R., Vallejo Marín, M., Hojka, J., Gorospe, J.M., Haghighatnia, M.J., İltaş, Ö., Kantor, A., Slovák, M. and Lafon Placette, C. 2024. Polyploidy-induced floral changes lead to unexpected pollinator behavior in Arabidopsis arenosa. Oikos e10267.  https://doi.org/10.1111/oik.10267

Polyploid pollination 
88.

da Paz, J. R. L., B. Ribeiro dos Santos, T. F. F. de Sá, J. E. Q. F. Júnior, W. P. Silva, C. A. P. Toledo, C. M. Pigozzo, T. K. Bellonzi, E. C. Gasparino, V. C. Souza, M. Vallejo-Marín, and H. N. Consolaro. 2024. Describing heterostyly, pollen, and sexual organ reciprocity in Rourea chrysomalla (Connaraceae), a rare and threatened species from the Brazilian Cerrado. Flora. 152483. https://doi.org/10.1016/j.flora.2024.152483 

Heterostyly 
87.

Huang W, Vallejo-Marín M, Inouye DW, Yang C-F, Ye Z-M. 2024. Bumblebees’ flower preferences are associated with floral abundance and buzz frequency when buzz-pollinating co-flowering plants. Entomologia Generalis. 44(1): 133-141.

Pedicularis. Buzz pollination
86.

Vallejo-Marín, M. and A. L. Russell. 2024. Harvesting pollen with vibrations: Towards an integrative understanding of the proximate and ultimate reasons for buzz pollination. Annals of Botany. 133(3): 379-398. doi: 10.1093/aob/mcad189

Harvesting pollen with vibrations paper. Buzz pollination

 
2023
85.

Vega-Polanco, M., L. Solís-Montero, M. Vallejo-Marín, L. D. Arévalo-Monterrubio, and J. F. García-Crisóstomo. 2023. Reproductive strategy of an invasive buzz-pollinated plant (Solanum rostratum). South African Journal of Botany 162: 342-352.

Plum Metrics
84.

Vega-Polanco, M., Solís-Montero, L., Rojas, J.C., Cruz-López, L., Alavez-Rosas, D. and Vallejo-Marín, M., 2023. Intraspecific variation of scent and its impact on pollinators’ preferences. AoB Plants, p.plad049.

plant speciation perspective

 
83.

Anderson, B., J. Panel, S. Billard, C. Burgarella, H. de Boer, M. Dufay, A. Helmstetter, M. Mendez, S. Otto, D. Rose, H. Sauquet, D. Schoen, J Schonenberger, M. Vallejo-Marin, R. Zenil-Ferguson, J. Kafer, S. Glemin. 2023. Opposing effects of plant traits on diversification. iScience. 26(4): 106362.

plant speciation perspective

 
82.

Helmstetter, A.J., Zenil-Ferguson, R., Sauquet, H., Otto, S.P., Méndez, M., Vallejo-Marin, M., Schönenberger J., Burgarella, C., Anderson B., de Boer, H.,  Glémin S., and Käfer, J. 2023Trait-dependent diversification in angiosperms: Patterns, models and data. Ecology Letters, 00, 118.  https://doi.org/10.1111/ele.14170

SSE models and plant traits

 
2022
81.

Nevard, L. and M. Vallejo-Marín. 2022. Floral orientation affects outcross pollen deposition in buzz-pollinated flowers with bilateral symmetry. American Journal of Botany. 109: 1568–1578. doi: 10.1002/ajb2.16078

Bees and buzzing flowers

 
80.

Nunes, C. E. P. and M. Vallejo-Marín 2022. How much pollen do bee-like floral vibrations remove from different types of anthers? International Journal of Plant Sciences. 183(9): 768-776. doi: 10.1086/722296

Buzz pollen flowers

 
79.

Wilkins, R. V., M. M. Mayberry, M. Vallejo-Marín, A. L. Russell. 2022. Hold tight or loosen up? Functional consequences of a shift in anther architecture depend substantially on bee body size. Oecologia. 200, 119–131. doi: 10.1007/s00442-022-05246-0

Russell cones bees

 
78.

De Luca, P.A. & M. Vallejo-Marin. 2022. Blooms and Buzzing Bees: Bridging Buzz Pollination and Biotremology. In: P. S. M. Hill, V. Mazzoni, N. Stritih-Peljhan, M. Virant-Doberlet, A. Wessel (Eds). Biotremology: Physiology, Ecology, and Evolution. Springer. Cham, Switzerland. 578 pp.

Biotremology_buzz

 
77.

Vallejo-Marin, M., Pereira Nunes C. E., and Russell A. L. 2022. Anther cones increase pollen release in buzz-pollinated Solanum flowers. Evolution. 76(5): 931-945. doi: 10.1111/evo.14485

Read the Evolution Digest here (Venkatraman and Bukkuri 2022)

buzz pollination anther cones evolution

 
76.

Kemp, J., Telles, J. M., and Vallejo-Marin, M. 2022. Reduced visitation to buzz-pollinated Cyanella hyacinthoides in the presence of other pollen sources in the hyperdiverse Cape Floristic Region. Ecology and Evolution. 12(4), p.e8784. doi: 10.1002/ece3.8784

buzz pollination south africa

 
75.

Querns, A., Wooliver, R., Vallejo-Marin, M. & Sheth, S. N. 2022. The evolution of thermal performance in native and invasive populations of Mimulus guttatusEvolution Letters. 6(2): 136-148. doi: 10.1002/evl3.275

thermal tolerance mimulus guttatus 

 
74.

Vallejo-Marin, M. 2022. How and why do bees buzz? Implications for buzz pollination. Journal of Experimental Botany73(4): 1080-1092  https://doi.org/10.1093/jxb/erab428

Why bees buzz?

 
2021
73.

Kinser, T.J, R. D. Smith, A. H. Lawrence, A. M. Cooley, M. Vallejo-Marin, G. D. Conradi Smith, J. R. Puzey. 2021. Endosperm-based incompatibilities in hybrid monkeyflowers. Plant Cell. 33(7):2235-2257.  doi: 10.1093/plcell/koab117

Commentary: Genomic shock in monkeyflowers

Mimulus endosperm barriers

 
72.Pereira Nunes, C. E, L. Nevard, F. Montealegre-Zapata and M. Vallejo-Marin. 2021. Variation in natural frequency of stamens in six morphologically diverse, buzz-pollinated, heterantherous Solanum, and its relationship to bee vibrations. Botanical Journal of the Linnaean Society. doi: boab044Natural frequency of flowers buzz pollination

 
71.

Kemp, J. E. and Vallejo-Marin, M. 2021. Pollen dispensing schedules in buzz-pollinated plants: Experimental comparison of species with contrasting floral morphologies. American Journal of Botany. 108(6): 993-1005.

AJB Buzz pollination

 
70.Nevard, L., A.L. Russell, K. Foord and M. Vallejo-Marin.  2021. Transmission of bee-like vibrations in buzz-pollinated plants with different stamen architectures. Scientific Reports. 11: 13541.
Mimulus endosperm barriers

Biorxiv

 
69.Vallejo-Marin, M., Friedman, J., Twyford, A. D., Lepais, O., Ickert-Bond, S., Streisfeld, M. A., Yant, L., van Kleunen, M., Rotter, M. C., and Puzey, J. R. 2021. Population genomic and historical analysis suggests a global invasion by bridgehead processes in Mimulus guttatusCommunications Biology. 4: 327. doi: 10.1038/s42003-021-01795-xMimulus population genomics

 

Biorxiv

 
68.

Simon-Porcar, Silva, J. L., and Vallejo-Marin, M. 2021. Rapid local adaptation in both sexual and asexual invasive populations of monkeyflowers (Mimulus spp.). Annals of Botany.  doi: 10.1093/aob/mcab004

Read AoB Blog article

Mimulus local adaptation

 
67.Cooley, H. and Vallejo-Marin, M. 2021. Buzz-pollinated crops: A global review and meta-analysis of the effects of supplemental bee pollination in tomato. Journal of Economic Entomologydoi: 10.1093/jee/toab009Buzz pollination in crops

 
66.Marcelo, V. G,, Brito, V. L. G., Vallejo-Marin, M., and Consolaro, H. 2021. Andromonoecy in Solanum lycocarpum A. St.-Hill. (Solanaceae): Floral attributes, visitors and variation in sexual expression over time. Plant Species Biology. doi: 10.1111/1442-1984.12316Solanum lycocarpum article

 
65.

Vallejo-Marin, M. & Vallejo, G. C. 2021. Comparison of defence buzzes in hoverflies and buzz-pollinating bees. Journal of Zoology. doi: 10.1111/jzo.12857

Read highlight in Journal of Experimental Biology

Bee vs Fly paper

 
64.van der Kooi, C. J., M. Vallejo-Marin, S.D. Leonhardt. 2021Mutualisms and (a)symmetry in plant-pollinator interactions. Current Biology. 31(2): R91-R99.Plant pollinator asymmetry

 
2020
63.
Meeus, S., Šemberová, K., De Storme, N., Geelen, D. and Vallejo-Marin, M. 2020. Effect of whole-genome duplication on the evolutionary rescue of sterile hybrid monkeyflowers. Plant Communications. 1(6): 100093. https://doi.org/10.1016/j.xplc.2020.100093
Mimulus Hybrids Meeus, Semeberova, De Sorme, Geelen, Vallejo-Marin. Open Access. Allopolyploid, Mimulus

 
62.
Brito V.L.G., Nunes, C.E.P., Resende, C.R., Montealegre Zapata, F.,  and Vallejo-Marin M.. 2020. Biomechanical properties of a buzz-pollinated flower. Royal Society Open Science. 7: 201010. http://dx.doi.org/10.1098/rsos.201010
Biomechanics of a buzz pollinated flower

 
61.
Pritchard, D.J. and Vallejo-Marin, M. 2020. Buzz pollination. Current Biology. 30: R841-R870.
Pritchard and Vallejo-Marin Buzz pollination Quick Guide. Current Biology

Author’s copy

 
60.
Pritchard, D.J. and Vallejo-Marin, M. 2020. Floral vibrations by buzz-pollinating bees achieve higher frequency, velocity and acceleration than flight and defence vibrations. Journal of Experimental Biology. jeb220541. doi: 10.1242/jeb.220541
 
Supplementary Code: DataSTORRE files
Pritchard and Vallejo-Marin Buzz pollination

 
59.
Da Re, D., Olivares, A.P., Smith, W., Vallejo-Marin, M. 2020. Global analysis of ecological niche conservation and niche shift in exotic populations of monkeyflowers (Mimulus guttatus, M. luteus) and their hybrid (M. × robertsii). Plant Ecology & Diversity. 13(2): 133-146. doi: 10.1080/17550874.2020.1750721
 
Mimulus WebMap
WebMap files: DataSTORRE files
Da re et al_2020_Mimulus PDF

 
2019  
58.
Runemark, A., Vallejo-Marin, M. & Meier, J.I. 2019. Eukaryote hybrid genomes. PLOS Genetics. 15
(11): e1008404. https://doi.org/10.1371/journal.pgen.1008404
PLOS Genetics Hybrid genomes

 
57.
Rotter, M.C., Vallejo-Marin, M. & Holeski, L.M. 2019. A test of the evolution of increased competitive ability in two invaded regions. Evolutionary Ecology. 33(5): 713–735. doi: 10.1007/s10682-019-10004-5
Rotter_Holeski_Vallejo-Marin_Mimulus_monkeyflower

 
56.
Lowry, D. L. and 49 authors. 2019. The case for the continued use of the genus name Mimulus for all monkeyflowers. Taxon. 68(4): 617-623. doi.org/10.1002/tax.12122
Taxon_Mimulus

 
55.
Vallejo-Marín, M. 2019. Buzz pollination: Studying bee vibrations on flowers. New Phytologist. 224: 1068-1074. Tansley Insight. doi: 10.1111/nph.15666
Zarah Pattison_Ecosystem_Invasive Species_Himalayan balsam

 
54.Pattison, Z., M. Vallejo-Marín, N,. Willby. 2019. Riverbanks as battlegrounds: why does the abundance of native and invasive plants vary? Ecosystems. 22: 578-586. doi: 10.1007/s10021-018-0288-3Zarah Pattison_Ecosystem_Invasive Species_Himalayan balsam

 
53.

De Luca, P.A., S.L. Buchmann, C. Galen, A.C. Mason and M. Vallejo-Marín. 2019. Does body size predict buzz-pollination frequencies used by bees? Ecology and Evolution. 9(8): 4875-4887. doi: 10.1002/ece3.5092

Does body size predict the buzz‐pollination frequencies used by bees?

 
52.
Arroyo-Correa, B., Beattie, C. E. and Vallejo-Marín, M. 2019. Bee and floral traits affect the characteristics of the vibrations experienced by flowers during buzz pollination. Journal of Experimental Biology222: . doi: 10.1242/jeb.198176
Highlighted in: Inside JEB
Arroyo-Correa_Beattie_Vallejo-Marin_buzz_pollination

 
51.
Vallejo-Marín, M. 2019. Evolutionary tinkering allows buzz pollinated plants to escape from an adaptive dead-end. New Phytologist. 221: 618-619. doi10.1111/nph.15474
Evolutionary tinkering Buzz pollination

 
2018
  
50.Carrillo-Reche, M. Vallejo-Marín, R. Quilliam. 2018. Quantifying the potential of ‘on-farm’ seed priming to increase crop performance in developing countries. A meta-analysis. Agronomy for Sustainable Development. 38(64): 1-14. doi: 10.1007/s13593-018-0536-0Carrilo-Reche_Seed priming

 
49.
Baduel, P., S. Bray, M. Vallejo-Marín, F. Kolář and L. Yant. 2018. The ‘Polyploid Hop’: shifting challenges and opportunities over the evolutionary lifespan of genome duplications. Frontiers in Ecology and Evolution. doi: 10.3389/fevo.2018.00117
Baduel_Polyploid_hoponline version

 
48.Pantoja, P.O., C.E.T. Paine & M. Vallejo-Marín. 2018. Natural selection and outbreeding depression suggest adaptive differentiation in the invasive range of a clonal plant. Proceedings of the Royal Society. B. 285(1882): 1-9. doi
ProcRoySocB_Mimulus_Pantoja et al 2018

 
47.Vallejo-Marín, M. 2018. Searching for the genetic footprint of ancient and recent hybridisation. Molecular Ecology. 27: 1095-1097. doi: 10.1111/mec.14444Geum hybrids Molecular Ecology

 
2017
  
46.Amer, M., A. Tyler, T. Fouda, P. Hunter, A. Elemetwalli, C. Wilson, and M. Vallejo-Marín. 2017. Spectral characteristics for estimation of heavy metals accumulation in wheat plants and grain. Scientific Papers Series Management, Economic Engineering in Agriculture and Rural Development. 17(3): 47-56.Interfertility in Mimulus peregrinus 
45.Vallejo-Marín, M., M. Quenu, S. Richie, and S. Meeus. 2017. Partial inter-fertility between independently originated populations of the neo-allopolyploid Mimulus peregrinus. Plant Systematics and Evolution. 303(8): 1081-1092. doi: 10.1007/s00606-017-1426-7Interfertility in Mimulus peregrinus

 
44.Edger, P.P., R. Smith, M.R. McKain, A.M. Cooley, M. Vallejo-Marín, Y. Yuan, A.J. Bewick, L. Ji, A.E. Platts, M.J. Bowman, K.L. Childs, J.D. Washburn, R.J. Schmitz, G.D. Smith, J.C. Pires, and J.R. Puzey. 2017.  Subgenome dominance in an interspecific hybrid, synthetic allopolyploid, and a 140-year-old naturally established neo-allopolyploid monkeyflower. The Plant Cell. 29: 2150-2167. doi: 10.1105/tpc.17.00010 Interfertility in Mimulus peregrinus

 
43.Whitehorn, P. R., C. Wallace and M. Vallejo-Marín. 2017. Neonicotinoid pesticide limits improvement in buzz pollination by bumblebees. Scientific Reports. 7. doi:10.1038/s41598-017-14660-xNeonicotinoids, buzz pollination and bumblebees

 
42.Simon-Porcar, V. I., J.L. Silva, J. D. Higgins and M. Vallejo-Marín. 2017. Recent autopolyploidisation in a naturalized population of Mimulus guttatus (Phrymaceae). Botanical Journal of the Linnean Society. 185(2):189-207. doi: 10.1093/botlinnean/box052
Herbarium specimen
 Interfertility in Mimulus peregrinus

 
41.Schouppe, D., R. Brys, M. Vallejo-Marin, and H. Jacquemyn. 2017. Geographic variation in floral traits and the capacity of autonomous selfing across allopatric and sympatric populations of two closely related Centaurium species. Scientific Reports. 7: 46410. doi: 10.1038/srep46410 pdf

 
40.Solis-Montero, L. and M. Vallejo-Marin. 2017. Does the morphological fit between flowers and pollinators affect pollen deposition? An experimental test in a buzz-pollinated species with anther dimorphism. Ecology and Evolution. 7(8): 2706-2715. doi: 10.1002/ece3.2897 

 
39.Pantoja, P. O., V. I. Simon-Porcar, J. R. Puzey, and M. Vallejo-Marin. 2017. Genetic variation and clonal diversity in introduced populations of Mimulus guttatus assessed by genotyping at 62 single nucleotide polymorphism loci. Plant Ecology & Diversity. doi: 10.1080/17550874.2017.1287785Online version

 
38.Moeller, D. A., R. D. Briscoe Runquist, A. M. Moe, M. A. Geber, C. Goodwillie, P.-O. Cheptou, C. G. Eckert, E. Elle, M. O. Johnston, S. Kalisz, R. H. Ree, R. D. Sargent, M. Vallejo-Marin, and A. A. Winn. 2017. Global biogeography of mating system variation in seed plants. Ecology Letters. 20(3): 375-384. doi: 10.1111/ele.12738Online version

Strongly asymmetric hybridization barriers shape the origin of a new polyploid species and its hybrid ancestor

 
2016
  
37.Vallejo-Marín, M., A. M. Cooley, M. Y. Q. Lee , M. R. Folmer, M. R. McKain, J. R. Puzey. 2016. Strongly asymmetric hybridization barriers shape the origin of a new polyploid species and its hybrid ancestor. American Journal of Botany. 103(10):1-17. doi: 10.1101/030932Open Access

Strongly asymmetric hybridization barriers shape the origin of a new polyploid species and its hybrid ancestor

 

bioRxiv

 

AJB

36.Vallejo-Marín, M. and S. J. Hiscock. 2016. Hybridisation and hybrid speciation under global change. New Phytologist. 211(4): 1170-1187. doi: 10.1111/nph.14004
Open accessVallejo-Marin and Hiscock. Hybridisation and hybrid speciation under global change

 
35.Morgan, T., P. R. Whitehorn, G. C. Lye and M. Vallejo-Marín. 2016. Floral sonication is an innate behaviour in bumblebees that can be fine-tuned with experience in manipulating flowers. Journal of Insect Behavior. 29: 233-241. doi: 10.1007/s10905-016-9553-5
Open access Morgan, T., P. R. Whitehorn, G. C. Lye and M. Vallejo-Marín. In press. Floral sonication is an innate behaviour in bumblebees that can be fine-tuned with experience in manipulating flowers. Journal of Insect Behavior. doi: 10.1007/s10905-016-9553-5

 
34.Lafon-Placette C., M. Vallejo-Marín, C. Parisod, R.J. Abbott, and C. Köhler. 2016. Current plant speciation research: Unravelling the processes and mechanisms behind the evolution of reproductive isolation barriers. New Phytologist. 209: 29-33. doi: 10.1111/nph.13756Online
 Morgan, T., P. R. Whitehorn, G. C. Lye and M. Vallejo-Marín. In press. Floral sonication is an innate behaviour in bumblebees that can be fine-tuned with experience in manipulating flowers. Journal of Insect Behavior. doi: 10.1007/s10905-016-9553-5

 
2015
  
33.Solis-Montero L., C. Vergara, and M. Vallejo-Marín. 2015. High incidence of pollen theft in natural populations of a buzz-pollinated plant. Arthropod-Plant Interactions. 9: 599-611. doi:10.1007/s11829-015-9397-5pdf

 
32.Vallejo-Marín M., R.J.A. Buggs, A.M. Cooley, and J.R. Puzey. 2015. Speciation by genome duplication: Repeated origins and genomic composition of the recently formed allopolyploid species Mimulus peregrinus. Evolution. 69(6): 1487-1500. doi: 10.1111/evo.12678. News coverage: Science Daily, Conservation. See comment in: The Molecular Ecologistpdfonline PDF

 
31.
Moczek AP, K.E. Sears, A. Stollewerk, P.J. Wittkopp, P. Diggle, I. Dworkin, C. Ledon-Rettig, D.Q. Matus, S. Roth, E. Abouheif, F.D. Brown, C. Chiu, C.S. Cohen, A.W. De Tomaso, S.F. Gilbert, B. Hall, A. Love, D.C. Lyons, T. Sanger, J. Smith, C. Specht, M. Vallejo-Marin M, C.G. Extavour. 2015. The significance and scope of evolutionary developmental biology: a vision for the 21st century. Evolution & Development. 17(3): 198219. doi: 10.1111/ede.12125
pdf

 
2014
  
30.
Vallejo-Marín, M. 2014. La correlación entre la poliploidía y la reproducción asexual. Ecosistemas. 23(3):78-82.
pdf
29.
Puzey, J. and M. Vallejo-Marín. 2014. Genomics of invasion: Diversity and selection in introduced populations of monkeyflowers (Mimulus guttatus). Molecular Ecology. 23(18): 4472-4485.
PDF

 
28.
Vallejo-Marín, M., C. Walker, P. Friston Reilly, L. Solis-Montero, B. Igic. 2014. Recurrent modification of floral morphology in heterantherous Solanum reveals a parallel shift in reproductive strategy. Philosophical Transactions of The Royal Society, B. Biological Sciences. 369: 20130256.
Supplementary Material: Fig. S1, Table S1, Table S2.
pdf
27.
Rouger, R., M. Vallejo-Marín, and A.S. Jump. 2014. Development and cross-species amplification of twelve microsatellite loci for Puccinellia maritima, an important engineer saltmarsh species. Genetics and Molecular Research. 13: 3426-3431.
pdf
26.
De Luca, P. A., D.A. Cox, and M. Vallejo-Marín. 2014. Comparison of pollination and defensive buzzes in bumblebees indicates species-specific and context-dependent vibrations. Naturwissenschaften. 101: 331-338. News coverage: The Economist
pdf

 
2013
  
25.
Zhao, J., L. Solis-Montero, A. Lou, and M. Vallejo-Marín. 2013. Population structure and genetic diversity of native and invasive populations of Solanum rostratum (Solanaceae). PLOS ONE. 8(11): e79807.
pdf

 
24.
Vallejo-Marín, M., L. Solis-Montero, D. Souto-Vilaros and M. Y. Q. Lee. 2013. Mating system in Mexican populations of the annual herb Solanum rostratum Dunal (Solanaceae). Plant Biology. 15(6): 948-954.
pdf
23.
De Luca, P.A. and M. Vallejo-Marín. 2013. What’s the “buzz” about? The ecology and evolutionary significance of buzz-pollination. Current Opinion in Plant Biology. 16: 429-435. News coverage: The New York Times
pdf

 
22.
Goulson, D., K.J. Park, M.C. Tinsley, L.F. Bussiere, and M. Vallejo-Marín. 2013. Social learning drives handedness in nectar-robbing bumblebees. Behavioural Ecology and Sociobiology. 67: 1141-1150. News coverage: The Economist
pdf

 
21.
De Luca, P. A., L. F. Bussiere, D. Souto-Vilaros, D. Goulson, A. C. Mason and M. Vallejo-Marín. 2013. Variability in bumblebee pollination buzzes affects the quantity of pollen released from flowers. Oecologia. 172: 805-816.
pdf

 
20.
Vallejo-Marín, M. and G. C. Lye. 2013. Hybridisation and genetic diversity in introduced Mimulus (Phrymaceae). Heredity. 110: 111-122.
pdf
2012
   
19.
Vallejo-Marín, M. 2012. Mimulus peregrinus (Phrymaceae): A new British allopolyploid species. Phytokeys. 14:1-14. News coverage: BBC, Scientific American, Science Daily.
pdf

 
2011
  
18.
Winn, A. A., E. Elle, S. Kalisz, P. O. Cheptou, C. G. Eckert, C. Goodwillie, M. O. Johnston, D. A. Moeller, R. H. Ree, R. D. Sargent and M. Vallejo-Marín. 2011. Analysis of inbreeding depression in mixed-mating plants provides evidence for selective interference and stable mixed mating. Evolution. 65:3339-3359.
pdf
17.
Vallejo-Marín, M., L. Solis-Montero, C.F.E. Bacles and O. Lepais. 2011. Thirteen microsatellites developed by SSR-enriched pyrosequencing for Solanum rostratum (Solanaceae) and related species. American Journal of Botany. 98:e296-e299.
pdf
2010
  
16.
Vallejo-Marín, M. E. M. Da Silva, R. D. Sargent and S. C. H. Barrett. 2010. Trait correlates and functional significance of heteranthery in flowering plants. New Phytologist. 188:418-425.
pdf
15.
Vallejo-Marín, M., M. E. Dorken and S. C. H. Barrett. 2010. The ecological and evolutionary consequences of clonality for plant mating. Annual Reviews of Ecology, Evolution and Systematics. 41:193-213.
pdf
14.
Goodwillie, C., R. D. Sargent, C. G. Eckert, E. Elle,S. Kalisz, M. A. Geber, M. O. Johnston, D. A. Moeller, R. H. Ree, M. Vallejo-Marín and A. A. Winn. 2010. Correlated evolution of mating system and floral display traits in flowering plants and its implications for the distribution of mating system variation. New Phytologist. 185:311-321.
pdf
13.
Eckert, C. G., S. Kalisz, M. A. Geber, R. Sargent, E. Elle, P.O. Cheptou, C. Goodwillie, M. O. Johnston, J. K. Kelly, D. A. Moeller, E. Porcher, R. H. Ree, M. Vallejo-Marín and A. A. Winn. 2010. Plant mating systems in a changing world. Trends in Ecology and Evolution. 25:35-43.
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2009
  
12.
Barrett, S. C. H., R. W. Ness and M. Vallejo-Marín. 2009. Evolutionary pathways to self-fertilization in a tristylous plant species. New Phytologist. 183:546-556.
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11.
Vallejo-Marín, M., J. S. Manson, J. D. Thomson and S. C. H. Barrett. 2009. Division of labour within flowers: Heteranthery, a floral strategy to reconcile contrasting pollen fates. Journal of Evolutionary Biology. 22:828-839.
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10.
Vallejo-Marín, M. and S. C. H. Barrett. 2009. Modification of flower architecture during early stages in the evolution of self-fertilization. Annals of Botany. 103:951-962.
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9.
Aguirre, A., M. Vallejo-Marín, E. M. Piedra-Malagon, R. Cruz-Ortega and R. Dirzo. 2009. Morphological variation in the flowers of Jacaratia mexicana A. DC. (Caricaceae), a subdioecious tree. Plant Biology. 11:417-424.
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8.
Johnston, M., E. Porcher, P. O. Cheptou, C. G. Eckert, E. Elle, M. A. Geber, S. Kalisz, J. K. Kelly, D. A. Moeller, M. Vallejo-Marín and A. A. Winn. 2009 . Correlations among fertility components can maintain mixed mating in plants. The American Naturalist. 173:1-11.
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2008
  
7.
Vallejo-Marín, M. and M. K. Uyenoyama. 2008. On the evolutionary modification of self-incompatibility: Implications of partial clonality for allelic diversity and genealogical structure. (Ed.) V. E. Franklin-Tong. Self-Incompatibility in Flowering plants: Evolution, Diversity and Mechanisms. Springer. pp 53-71.
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2007
  
6.
Vallejo-Marín, M. and M. D. Rausher. 2007. Selection through female fitness helps to explain the maintenance of male flowers. The American Naturalist. 169:563-568.
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5.
Vallejo-Marín, M. and M. D. Rausher. 2007. The role of male flowers in andromonoecious species: Energetic costs and siring success in Solanum carolinense. Evolution. 61:404-412.
pdf
4.
Vallejo-Marín, M. and H. E. O’Brien. 2007. Correlated evolution of self-incompatibility and clonal reproduction in Solanum. New Phytologist. 173:415-421.
pdf
3.
Aguirre, A., M. Vallejo-Marín, L. Salazar Goroztieta, D. M. Arias and R. Dirzo. 2007.Variation in sexual expression in Jacaratia mexicana (Caricaceae) in Southern Mexico: Frequency and relative seed performance of fruit-producing males. Biotropica. 39:79-86.
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2006
  
2.
Vallejo-Marín, M., C. A. Dominguez and R. Dirzo. 2006. Simulated seed predation reveals a variety of germination responses of neotropical rain forest species. American Journal of Botany. 93:369-376.
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2004
  
1.
Vallejo-Marín, M. and M. K. Uyenoyama. 2004. On the evolutionary costs of self-incompatibility: incomplete reproductive compensation due to pollen limitation. Evolution. 58:1924-1935.
Other
  
 

Vallejo-Marín, M. 2007. The paradox of clonality and the evolution of self-incompatibility. Plant Signaling & Behavior. 2:265-266. (Invited commentary).