Temporal and spatial patterns of airborne pollen dispersal in six salt marsh halophytes

Pollination is a key process in the life cycle of most plant species, but very little is known about airborne pollen dispersal in salt marsh anemophilous halophytes. We analyzed the temporal and spatial dynamics of airborne pollen dispersal, using portable volumetric pollen traps, for six anemophilo...

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Published in:Review of palaeobotany and palynology Vol. 302; p. 104662
Main Authors: Sanjosé, Israel, Nieva, Francisco J.J., Infante-Izquierdo, M. Dolores, Polo-Ávila, Alejandro, Sánchez-Gullón, Enrique, Martínez-Sagarra, Gloria, Muñoz-Rodríguez, Adolfo F., Castillo, Jesús M.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2022
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Summary:Pollination is a key process in the life cycle of most plant species, but very little is known about airborne pollen dispersal in salt marsh anemophilous halophytes. We analyzed the temporal and spatial dynamics of airborne pollen dispersal, using portable volumetric pollen traps, for six anemophilous Chenopodiaceae halophytic species in tidal salt marshes. In addition, we studied the effects of air temperature and wind speed on airborne pollen dispersal. Our study shows high levels of temporal and spatial constraint on airborne pollen dispersal. We recorded the lowest airborne pollen concentrations at air temperatures lower than 22 °C and wind speeds higher than 6 m s−1. These environmental conditions set up a narrow temporal pollination window during morning hours. We also recorded severe spatial limitation for pollen dispersal in three of the six halophytes studied, which presented airborne pollen concentrations that were 9 to 53 times smaller only 5 m away from source populations than within those populations. These results show that even related species colonizing the same ecosystem may show contrasted airborne pollen spatial dispersal dynamics that depend on several environmental factors. This should be taken into account for estimates of vegetation composition based on pollen production in aerobiological and paleopalinological studies. The restricted airborne pollen dispersal recorded would promote geitonogamy and limit interpopulation genetic exchange to the dispersal of their hydrochorous fruits. •Airborne pollen concentrations decreased c. 90% at temperatures lower than 22 °C.•Airborne pollen concentrations decreased c. 90% at wind speed higher than 6 m s−1.•Environmental conditions set up a narrow temporal pollination window.•Airborne pollen was mostly dispersed during a few morning hours.•Pollen concentration decreased markedly 5 m away in 3 of the 6 halophytes studied.
ISSN:0034-6667
1879-0615
DOI:10.1016/j.revpalbo.2022.104662