Abstract
Tropical Andean glaciers are retreating rapidly, with possible consequences for trophic structure and ecosystem processes in high Andean meltwater streams. Here, we measured the environmental characteristics, quantified pools of particulate organic matter (POM) and periphyton (Chl. a), sampled benthic macroinvertebrates, determined functional feeding groups (FFG), and performed mesh bag decomposition experiments with Calamagrostis grass detritus at 17 stream sites along a gradient of glacial influence (GI) with 0–23% glacier cover in the catchment at 4050–4200 m a.s.l. in the Andes of Ecuador. POM was unrelated to GI while Chl. a. showed a weak (non-significant) negative relationship to GI. The macrofauna abundance decreased while taxon richness and the number of FFGs per site showed a hump-shaped relationship with increasing GI. Taxa with an opportunistic and generalist feeding mode generally dominated benthic assemblages and were related to high GI levels and low Chl. a. Only shredders were negatively related to GI, but unrelated to POM. Decomposition rates were comparable to those found in temperate alpine streams, and for both fine (0.0010–0.0065; median 0.0028 d−1) and coarse (0.0019–0.0088; median 0.0048 d−1) mesh bags, peaked at intermediate GI values, while the difference between bag types was small and almost constant along the GI gradient. This indicates an overall minor effect of macroinvertebrate shredders compared to that of microbes, in particular at high GI. It also suggests that the relatively high average temperature of these high-altitude equatorial streams (7–10 °C) does not produce higher decomposition rates than those in comparable but colder streams at temperate latitudes. The results suggest that, at the lower end of glacier cover, tropical glacier loss will not change the dominant microbial role in detritus decomposition, but that part of the physical abrasion could be partially replaced by biological shredding.
Highlights
Streams fed by glacial meltwater are notoriously harsh environments that generally have low average temperature, nutrient concentration, electrical conductivity, and physical stability, but high turbidity due to suspended solids [1]
The density and taxon richness of benthic macroinvertebrates usually decrease with increasing glacial cover in the catchment or proportion of discharge originating from glacial meltwater [3,4,5]
The first two axes of the non-centered principal component analysis (NPCA) used to assign the glaciality index to our 17 sites accounted for 82% and 15% of the total variability, respectively (SI 3)
Summary
Streams fed by glacial meltwater are notoriously harsh environments that generally have low average temperature, nutrient concentration, electrical conductivity, and physical stability, but high turbidity due to suspended solids [1]. Such harsh conditions act as environmental filters excluding many aquatic species from these habitats, and are important in structuring the composition of natural aquatic communities [2]. Studies on input and decomposition of allochthonous detritus have shown that leaf breakdown rates in glacier-fed streams in the Alps vary widely among sites with different glacial influence [16,17,18], reflecting site-specific differences in habitat characteristics and in macroinvertebrate shredder density and fungal composition [19]
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