Phenology of myxomycetes in Turrialba, Costa Rica
Fecha
2021-05
Tipo
artículo original
Autores
Rojas Alvarado, Carlos Alonso
Rojas Camacho, Pedro
Stephenson, Steven L.
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Resumen
Long-term monitoring and phenological patterns
of microbial communities are rare in the scientific
literature. Myxomycetes have life cycle characteristics
that allow both to be documented. The present
study summarizes the integrated floristic and bioclimatic
components of a 30-month assessment of
myxomycete sporocarps in a premontane tropical
forest in Turrialba, Costa Rica. Based on monthly
visits and a standard sampling effort of 120 minutes
per visit, myxomycetes were recorded on leaves,
twigs, and logs on the ground by two to three people
in 20-minute periods associated with six different
collecting sites within a 34-hectare successional forest
patch. Biological data were analyzed using three
recorded climatic variables obtained in situ during
the complete period of study. Also, the Oceanic
Niño Index (ONI), provided by NOAA, an estimate of
El Niño-Southern Oscillation (ENSO), was evaluated
in the analyses. Overall, 54 species and 2245 records
of myxomycetes were recorded, with an average of
14.5 species (range between 6-24) and 78.4 records
(range between 20-110) detected each month. In
general, neither the number of records nor the number of species were associated with individual
climate variables, but multiple regression analyses
showed that a combination of the accumulated
precipitation of the four days before sampling and
the average relative humidity can explain most of the
fruiting dynamics (R2 = 0.56). When the ONI index
was included in the analyses, the explained variability
increased (R2 = 0.64), and when a categorization
of months based on the same index was used, analyses
showed that both the number of records and
species evenness were affected by ENSO. At the species
level, Hemitrichia calyculata was the only species
observed during every month, closely followed
by Arcyria cinerea, A. denudata, and Physarum compressum,
recorded on most visits. Sporadic fruiting
in some species such as Tubifera microsperma,
P. tenerum, P. bogoriense, P. melleum, and Metatrichia
vesparia could have been associated with local
climate oscillations influenced by ENSO patterns.
Phenological patterns were observed at the species
level, indicating that in the Neotropics, under
favorable conditions, myxomycete sporocarps are
practically always present, but species assemblages
vary temporally. These variations are primarily
driven by local climate, but regional climate dynamics
also affect fruiting patterns. Presumably, the
remaining ecological effect on fruiting patterns in
the Neotropics can be attributed to certain finer
factors such as ecosystem structure, substrate quality/
availability, and biotic interactions. As such,
phenomena such as climate change can have an
important effect on the production of sporocarps
by tropical myxomycetes, with subsequent effects of
their ecological dynamics.
Descripción
Palabras clave
Biodiversity, Climate, El Niño-Southern oscillation, Monitoring, Neotropics, Sampling effort, Slime molds