Effects of increased nitrogen deposition on soil nematodes in alpine tundra soils

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dc.contributor.author Lokupitiya, E.
dc.contributor.author Stanton, N. L.
dc.contributor.author Seville, R. S.
dc.contributor.author Snider, J. R.
dc.date.accessioned 2021-06-23T08:12:09Z
dc.date.available 2021-06-23T08:12:09Z
dc.date.issued 2000
dc.identifier.uri http://www.urbanfischer.de/journals/pedo
dc.identifier.uri http://archive.cmb.ac.lk:8080/xmlui/handle/70130/5427
dc.description.abstract Because of anthropogenic activities, atmospheric deposition of nitrogen has increased on some high elevation ecosystems in North America. On Elk Mountain in SE Wyoming, USA, we found that ice, formed by the impaction of supercooled cloud droplets, contains nitrogen levels (NH4+ = 58 ± 47 μmole/l, NO3-= 52 ± 40 μmole/l) significantly higher than snow (NH4+ = 7 ± 5 μmole/l, NO3-= 14 ± 7 μmole/l). At this site the impaction process (riming) occurs on krummholz and is an important mechanism of water and nutrient deposition. We sampled nematodes in alpine soil for two seasons under this rime ice deposition and in adjacent meadow and krummholz soil with only snow deposition. No significant difference was found in nematode density and trophic composition between snow and rime ice deposition zones in krummholz; and nematode densities were significantly higher in meadow soil than in the krummholz rhizosphere. Densities of active nematodes were highest immediately after snow melt and a positive correlation was found between nematode density and percent soil moisture. With subsequent soil drying, nematodes gradually entered anhydrobiosis and this process began earlier in the exposed meadow than under the krummholz canopy. In a subsequent microcosm experiment we exposed nematodes in two alpine soils to four different nitrogen treatments [ammonium nitrate (NH4NO3) at 0, 20, 40 and 80 kg N/ha/yr] and two temperatures (5 and 25°C). None of the three variables had a significant effect on nematode density. But at the first sampling (1 month) the interaction between soil type and nitrogen level was significant, and at the second and final sampling (6 months) the interaction between soil type and temperature was significant. Nematode response to increasing nitrogen deposition rates varied in a com- plex way with soil type and temperature. Under the microcosm conditions, nematode community composition shifted to opportunistic rhabditid species. Our work indicates that higher levels of nitrogen deposition (>80 kg N/ha/yr) were necessary to produce detectable effects on nematode density in this alpine region. en_US
dc.language.iso en en_US
dc.publisher Pedobiologia en_US
dc.subject nematodes, en_US
dc.subject alpine soil, en_US
dc.subject nitrogen deposition, en_US
dc.subject microcosms en_US
dc.title Effects of increased nitrogen deposition on soil nematodes in alpine tundra soils en_US
dc.type Article en_US


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