<p>Climate in the Arctic is changing and this may influence parasite-host interactions. Infective free-living larvae of gastrointestinal parasitic nematodes (GIN) are sensitive to environmental conditions. Climate change is thus expected to impact the transmission of these parasites. The encounter between infective larvae and grazing herbivores is likely to depend on vertical distribution of the larvae in soil and vegetation. However, research on the combined effects of temperature and moisture on vertical distribution of GIN larvae is limited. In this full factorial replicated field experiment on Svalbard, we studied the vertical distribution of <i>Ostertagia gruehneri,</i> an important GIN that infects Svalbard reindeer. Larvae&#xa0;were added to experimental plots on the field site and exposed to different temperature and watering conditions. We then tested the prediction that exposure to warmer and drier conditions would result in <i>O. gruehneri</i> larvae moving into the soil, while exposure to cooler and wetter conditions would result in the larvae moving into the vegetation. Five days after the introduction of larvae, we found, as expected, a lower larval abundance in the vegetation under the drier than wetter watering conditions. However, larval abundance in soil was similar under the different watering conditions. We propose larval mortality in the vegetation under the drier water regime as the most probable mechanism explaining these results. Contrary to our expectations, our manipulated temperature increases did not affect abundance in the soil or in vegetation. These results have important implications for understanding parasite availability and transmission into Svalbard reindeer in a changing Arctic.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Moisture but not temperature manipulations influence abundance of the free-living larvae of a parasitic nematode infecting Svalbard reindeer

  • T. M. Moerman,
  • R. Wetherbee,
  • M. Renčo,
  • A. Stien,
  • S. J. Coulson,
  • L. E. Loe

摘要

Climate in the Arctic is changing and this may influence parasite-host interactions. Infective free-living larvae of gastrointestinal parasitic nematodes (GIN) are sensitive to environmental conditions. Climate change is thus expected to impact the transmission of these parasites. The encounter between infective larvae and grazing herbivores is likely to depend on vertical distribution of the larvae in soil and vegetation. However, research on the combined effects of temperature and moisture on vertical distribution of GIN larvae is limited. In this full factorial replicated field experiment on Svalbard, we studied the vertical distribution of Ostertagia gruehneri, an important GIN that infects Svalbard reindeer. Larvae were added to experimental plots on the field site and exposed to different temperature and watering conditions. We then tested the prediction that exposure to warmer and drier conditions would result in O. gruehneri larvae moving into the soil, while exposure to cooler and wetter conditions would result in the larvae moving into the vegetation. Five days after the introduction of larvae, we found, as expected, a lower larval abundance in the vegetation under the drier than wetter watering conditions. However, larval abundance in soil was similar under the different watering conditions. We propose larval mortality in the vegetation under the drier water regime as the most probable mechanism explaining these results. Contrary to our expectations, our manipulated temperature increases did not affect abundance in the soil or in vegetation. These results have important implications for understanding parasite availability and transmission into Svalbard reindeer in a changing Arctic.