Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module
<p>The scope and complexity of interactions within community food webs necessitates their simplification to a community module scale for conducting empirical studies. An outdoor mesocosm study in the USA quantified the strengths of direct and indirect interactions between two herbivore congeners that fed on two aquatic plant species while sharing a parasitoid. <em>Kalopolynema ema</em> (Hymenoptera: Mymaridae) is a stenophagous native egg parasitoid that attacks the hemipteran species in this study, <em>Megamelus davisi</em> (Hemiptera: Delphacidae), a native herbivore that feeds on the native aquatic species <em>Nuphar advena</em>, and the introduced biological control agent <em>Megamelus scutellaris</em> (Hemiptera: Delphacidae) that feeds on the non-native aquatic species waterhyacinth, <em>Pontederia crassipes</em>. The presence of <em>M. scutellaris</em> did not significantly increase parasitism of <em>M. davisi</em> indicating that apparent competition was not a factor in this community module. There was no evidence of any trophic cascades caused by these interactions based on the relative growth rates of biomass and leaf area for both plant species. The relative strengths of interactions varied with herbivore densities suggesting that should negative indirect effects occur they would likely be transient and closely linked to population dynamics as influenced by abiotic factors like temperature. The primary negative interaction was biotic resistance to <em>Megamelus scutellaris</em> from attack by <em>Kalopolynema ema</em>. Despite identifying potential negative interactions using path analysis, we saw no apparent competition following the insertion of a weed biological control agent into a community that contains an ecological analog. </p><div><br>Resources in this dataset:</div><br><ul><li><p>Resource Title: Indirect Effects SS mesocosm .</p> <p>File Name: MS Indirect Data Commons version.xlsx</p><p>Resource Description: Raw data from MS Indirect study in mesocosms. NA = Nuphar advena, WH = Pontederia crassipes, MD = Megamelus davisi, MS = M. scutellaris., KE = Kalopolynema ema, BGBM = below ground biomass.</p></li></ul><p></p>
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2020
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| Subjects: | Crop and pasture production, Host-parasite interactions, Environmental sciences, Biosecurity science and invasive species ecology, biological control, mesocosm studies, community food webs, data.gov, ARS, |
| Online Access: | https://figshare.com/articles/dataset/Data_from_Classical_biological_control_and_apparent_competition_evaluating_a_waterhyacinth_invaded_community_module/24664818 |
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dat-usda-us-article246648182020-02-03T00:00:00Z Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module Philip Tipping (17481456) Melissa C. Smith (17481459) Ellen C. Lake (17481462) Carey R. Minteer (17481465) Ashley B. C. Goode (17481468) Jeremiah R. Foley (17481471) Lyn A. Gettys (17481474) Crop and pasture production Host-parasite interactions Environmental sciences Biosecurity science and invasive species ecology biological control mesocosm studies community food webs data.gov ARS <p>The scope and complexity of interactions within community food webs necessitates their simplification to a community module scale for conducting empirical studies. An outdoor mesocosm study in the USA quantified the strengths of direct and indirect interactions between two herbivore congeners that fed on two aquatic plant species while sharing a parasitoid. <em>Kalopolynema ema</em> (Hymenoptera: Mymaridae) is a stenophagous native egg parasitoid that attacks the hemipteran species in this study, <em>Megamelus davisi</em> (Hemiptera: Delphacidae), a native herbivore that feeds on the native aquatic species <em>Nuphar advena</em>, and the introduced biological control agent <em>Megamelus scutellaris</em> (Hemiptera: Delphacidae) that feeds on the non-native aquatic species waterhyacinth, <em>Pontederia crassipes</em>. The presence of <em>M. scutellaris</em> did not significantly increase parasitism of <em>M. davisi</em> indicating that apparent competition was not a factor in this community module. There was no evidence of any trophic cascades caused by these interactions based on the relative growth rates of biomass and leaf area for both plant species. The relative strengths of interactions varied with herbivore densities suggesting that should negative indirect effects occur they would likely be transient and closely linked to population dynamics as influenced by abiotic factors like temperature. The primary negative interaction was biotic resistance to <em>Megamelus scutellaris</em> from attack by <em>Kalopolynema ema</em>. Despite identifying potential negative interactions using path analysis, we saw no apparent competition following the insertion of a weed biological control agent into a community that contains an ecological analog. </p><div><br>Resources in this dataset:</div><br><ul><li><p>Resource Title: Indirect Effects SS mesocosm .</p> <p>File Name: MS Indirect Data Commons version.xlsx</p><p>Resource Description: Raw data from MS Indirect study in mesocosms. NA = Nuphar advena, WH = Pontederia crassipes, MD = Megamelus davisi, MS = M. scutellaris., KE = Kalopolynema ema, BGBM = below ground biomass.</p></li></ul><p></p> 2020-02-03T00:00:00Z Dataset Dataset 10.15482/usda.adc/1517659 https://figshare.com/articles/dataset/Data_from_Classical_biological_control_and_apparent_competition_evaluating_a_waterhyacinth_invaded_community_module/24664818 U.S. Public Domain |
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Crop and pasture production Host-parasite interactions Environmental sciences Biosecurity science and invasive species ecology biological control mesocosm studies community food webs data.gov ARS |
| spellingShingle |
Crop and pasture production Host-parasite interactions Environmental sciences Biosecurity science and invasive species ecology biological control mesocosm studies community food webs data.gov ARS Philip Tipping (17481456) Melissa C. Smith (17481459) Ellen C. Lake (17481462) Carey R. Minteer (17481465) Ashley B. C. Goode (17481468) Jeremiah R. Foley (17481471) Lyn A. Gettys (17481474) Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module |
| description |
<p>The scope and complexity of interactions within community food webs necessitates their simplification to a community module scale for conducting empirical studies. An outdoor mesocosm study in the USA quantified the strengths of direct and indirect interactions between two herbivore congeners that fed on two aquatic plant species while sharing a parasitoid. <em>Kalopolynema ema</em> (Hymenoptera: Mymaridae) is a stenophagous native egg parasitoid that attacks the hemipteran species in this study, <em>Megamelus davisi</em> (Hemiptera: Delphacidae), a native herbivore that feeds on the native aquatic species <em>Nuphar advena</em>, and the introduced biological control agent <em>Megamelus scutellaris</em> (Hemiptera: Delphacidae) that feeds on the non-native aquatic species waterhyacinth, <em>Pontederia crassipes</em>. The presence of <em>M. scutellaris</em> did not significantly increase parasitism of <em>M. davisi</em> indicating that apparent competition was not a factor in this community module. There was no evidence of any trophic cascades caused by these interactions based on the relative growth rates of biomass and leaf area for both plant species. The relative strengths of interactions varied with herbivore densities suggesting that should negative indirect effects occur they would likely be transient and closely linked to population dynamics as influenced by abiotic factors like temperature. The primary negative interaction was biotic resistance to <em>Megamelus scutellaris</em> from attack by <em>Kalopolynema ema</em>. Despite identifying potential negative interactions using path analysis, we saw no apparent competition following the insertion of a weed biological control agent into a community that contains an ecological analog. </p><div><br>Resources in this dataset:</div><br><ul><li><p>Resource Title: Indirect Effects SS mesocosm .</p> <p>File Name: MS Indirect Data Commons version.xlsx</p><p>Resource Description: Raw data from MS Indirect study in mesocosms. NA = Nuphar advena, WH = Pontederia crassipes, MD = Megamelus davisi, MS = M. scutellaris., KE = Kalopolynema ema, BGBM = below ground biomass.</p></li></ul><p></p> |
| format |
Dataset |
| author |
Philip Tipping (17481456) Melissa C. Smith (17481459) Ellen C. Lake (17481462) Carey R. Minteer (17481465) Ashley B. C. Goode (17481468) Jeremiah R. Foley (17481471) Lyn A. Gettys (17481474) |
| author_facet |
Philip Tipping (17481456) Melissa C. Smith (17481459) Ellen C. Lake (17481462) Carey R. Minteer (17481465) Ashley B. C. Goode (17481468) Jeremiah R. Foley (17481471) Lyn A. Gettys (17481474) |
| author_sort |
Philip Tipping (17481456) |
| title |
Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module |
| title_short |
Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module |
| title_full |
Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module |
| title_fullStr |
Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module |
| title_full_unstemmed |
Data from: Classical biological control and apparent competition: evaluating a waterhyacinth invaded community module |
| title_sort |
data from: classical biological control and apparent competition: evaluating a waterhyacinth invaded community module |
| publishDate |
2020 |
| url |
https://figshare.com/articles/dataset/Data_from_Classical_biological_control_and_apparent_competition_evaluating_a_waterhyacinth_invaded_community_module/24664818 |
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| _version_ |
1802722058410393600 |