Add to ORKGAlterations to forest canopy structures can have a direct effect on hydrological and biogeochemical cycles in forest ecosystems. Epiphytes act as additional canopy biomass intercepting water, effecting pathways under different micrometeorological conditions and alternating nutrient uptake/releases. Most studies on epiphyte cover have focused on non-vascular epiphytes (e.g., lichen and bryophyte mosses), leaving vascular epiphytes like Tillandsia usneoides L. (Spanish moss) relatively understudied. To fill this gap, we characterized alterations to throughfall water and dissolved ion enrichment/flux to soils by T. usneoides in a Quercus Virginiana Mill. (southern live oak) stand on St. Catherine’s Island. Specifically, we compare throughfall ...
Dissolved organic matter (DOM) drives carbon (C) cycling in soils. Current DOM work has paid little ...
Forest canopy structure controls the timing, amount, and chemical character of precipitation supply ...
To determine how epiphytes affect the canopy hydrology of old-growth Douglas-fir (Pseudotsuga menzie...
Alterations to forest canopy structure directly affect the hydrology and biogeochemistry of wooded e...
Along subtropical and tropical coastlines, Tillandsia usneoides L. (Spanish moss) can heavily cover ...
Alterations to forest canopy structure directly affect the hydrology and biogeochemistry of wooded e...
Identifying spatiotemporal influences on soil microbial community (SMC) structure is critical to our...
Epiphyte coverage on forest canopies can drastically alter the volume and chemical composition of ra...
Forest canopy structure controls the timing, amount, and chemical character of precipitation supply ...
Identifying spatiotemporal influences on soil microbial community (SMC) structure is critical to our...
Interactions between precipitation and forest canopy elements (bark, leaves, and epiphytes) control ...
Epiphytes absorb water and nutrients from the atmosphere through precipitation and dry deposition an...
The spatial relationship between the concentration and deposition of the major ions in precipitation...
Epiphytes absorb water and nutrients from the atmosphere through precipitation and dry deposition an...
1. Atlantic oak woods are of high conservation value and contain many rare lichens and bryophytes. T...
Dissolved organic matter (DOM) drives carbon (C) cycling in soils. Current DOM work has paid little ...
Forest canopy structure controls the timing, amount, and chemical character of precipitation supply ...
To determine how epiphytes affect the canopy hydrology of old-growth Douglas-fir (Pseudotsuga menzie...
Alterations to forest canopy structure directly affect the hydrology and biogeochemistry of wooded e...
Along subtropical and tropical coastlines, Tillandsia usneoides L. (Spanish moss) can heavily cover ...
Alterations to forest canopy structure directly affect the hydrology and biogeochemistry of wooded e...
Identifying spatiotemporal influences on soil microbial community (SMC) structure is critical to our...
Epiphyte coverage on forest canopies can drastically alter the volume and chemical composition of ra...
Forest canopy structure controls the timing, amount, and chemical character of precipitation supply ...
Identifying spatiotemporal influences on soil microbial community (SMC) structure is critical to our...
Interactions between precipitation and forest canopy elements (bark, leaves, and epiphytes) control ...
Epiphytes absorb water and nutrients from the atmosphere through precipitation and dry deposition an...
The spatial relationship between the concentration and deposition of the major ions in precipitation...
Epiphytes absorb water and nutrients from the atmosphere through precipitation and dry deposition an...
1. Atlantic oak woods are of high conservation value and contain many rare lichens and bryophytes. T...
Dissolved organic matter (DOM) drives carbon (C) cycling in soils. Current DOM work has paid little ...
Forest canopy structure controls the timing, amount, and chemical character of precipitation supply ...
To determine how epiphytes affect the canopy hydrology of old-growth Douglas-fir (Pseudotsuga menzie...