Influence of fruit dispersal on genotypic diversity and migration rates of a clonal cactus from the Chihuahuan Desert

The diverse offspring of clonal species differ in their dispersability, influencing genotypic diversity and clonal structure. Here, we determined dispersal patterns and their impact on genetic structure in Opuntia microdasys, a self‐incompatible cactus with three dispersal units (one sexual and two...

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Veröffentlicht in:Ecology and evolution 2018-12, Vol.8 (24), p.12559-12575
Hauptverfasser: García‐Morales, Erick, Carrillo‐Ángeles, Israel G., Golubov, Jordan, Piñero, Daniel, Mandujano, María C.
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Sprache:eng
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Zusammenfassung:The diverse offspring of clonal species differ in their dispersability, influencing genotypic diversity and clonal structure. Here, we determined dispersal patterns and their impact on genetic structure in Opuntia microdasys, a self‐incompatible cactus with three dispersal units (one sexual and two clonal). We analyzed dispersal, using experiments at three populations, and assessed multilocus genotypes (ISSR markers) of all individuals in 10 clumps per population with known reproductive origin (sexual or clonal). Genotype of all samples, population structure, and migration between clumps and populations were assessed with GenAlEx and GenoDive, assuming higher genotypic diversity and migration when sexual reproduction is more frequent. We determined the most likely number of genetic clusters with STRUCTURE and GENELAND. Dispersal differed among populations; primary dispersal occurred at short distances and was farthest on steep slopes, and dispersal distance increased after secondary dispersal. Clumps had 116 different multilocus genotypes in three spatially explicit genetic clusters. We detected genetic structure at small scale, genotypic diversity among clumps varied between populations; diversity decreased while clonal dominance increased, and the most variation occurred among clumps. Genetic structure was moderate, suggesting gene flow by seed dispersal allows slight differentiation among population at large scales. Genetic diversity within clumps was the lowest because dispersal of clonal propagules was limited and caused genotypic dominance at local scale. However, the combined dispersal pattern of sexual and clonal dispersal units is fine‐tuned by environmental factors, generating a range of genetic diversity among clusters and populations. This pattern suggests that genetic structure of clonal plants is more dynamic than thought, and dispersal of different types of offspring affects genetic structure at many scales. We study the effect of clonal and sexual propagule dispersal on the genotypic diversity of a clonal cactus and estimate migration rates at different scales. Plants were sampled and genotyped from each of three populations to determine multilocus genotypes based on ISSRs markers and analyzed with STRUCTURE and Geneland. Clonal offspring with limited mobility increased genetic structure, and three main genetic clusters correspond to the spatial location. Migration is mediated by sexual propagules among populations.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.4657