Survival of chicken ascarid eggs exposed to different soil types and fungi

Department of Plant and Environmental Sciences

Survival of chicken ascarid eggs exposed to different soil types and fungi

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Survival of chicken ascarid eggs exposed to different soil types and fungi. / Thapa, Sundar; Mejer, Helena; Thamsborg, Stig Milan; Lekfeldt, Jonas Duus Stevens; Wang, Rui; Jensen, Birgit; Magid, Jakob; Meyling, Nicolai Vitt.

In: Agriculture, Ecosystems & Environment, Vol. 121, 2017, p. 143-151.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Thapa, S, Mejer, H, Thamsborg, SM, Lekfeldt, JDS, Wang, R, Jensen, B, Magid, J & Meyling, NV 2017, 'Survival of chicken ascarid eggs exposed to different soil types and fungi', Agriculture, Ecosystems & Environment, vol. 121, pp. 143-151. https://doi.org/10.1016/j.apsoil.2017.10.001

APA

Thapa, S., Mejer, H., Thamsborg, S. M., Lekfeldt, J. D. S., Wang, R., Jensen, B., Magid, J., & Meyling, N. V. (2017). Survival of chicken ascarid eggs exposed to different soil types and fungi. Agriculture, Ecosystems & Environment, 121, 143-151. https://doi.org/10.1016/j.apsoil.2017.10.001

Vancouver

Thapa S, Mejer H, Thamsborg SM, Lekfeldt JDS, Wang R, Jensen B et al. Survival of chicken ascarid eggs exposed to different soil types and fungi. Agriculture, Ecosystems & Environment. 2017;121:143-151. https://doi.org/10.1016/j.apsoil.2017.10.001

Author

Thapa, Sundar ; Mejer, Helena ; Thamsborg, Stig Milan ; Lekfeldt, Jonas Duus Stevens ; Wang, Rui ; Jensen, Birgit ; Magid, Jakob ; Meyling, Nicolai Vitt. / Survival of chicken ascarid eggs exposed to different soil types and fungi. In: Agriculture, Ecosystems & Environment. 2017 ; Vol. 121. pp. 143-151.

Bibtex

@article{f48e625ee5ae41d281ba11d14f320c1b,

title = "Survival of chicken ascarid eggs exposed to different soil types and fungi",

abstract = "The eggs of intestinal ascarid parasites (Ascaridia galli and Heterakis spp.) of chickens can survive long-term in soil and this makes contaminated yards and pastures infective to chickens for years. The fungi Pochonia chlamydosporia Biotype 10 and Metarhizium brunneum KVL04-57 can kill ascarid eggs in agar assays but their efficacy against these eggs in soil is unknown. We therefore initially tested the ovicidal effect of the two fungi in laboratory soil assays. Unembryonated eggs were added to sterilised and non-sterilised soil with or without fungi, and egg recovery was examined before and after incubation (22 °C, 30 days). Egg recovery was substantially reduced by P. chlamydosporia and M. brunneum in sterilised soil. However, in non-sterilised soil only M. brunneum slightly reduced egg counts. Notably, egg recovery was reduced markedly in non-sterilised soil though no fungi were applied. To test if this is a general characteristic of natural soil, eggs were incubated in similar assays comprising 7 different soils (sterilised and non-sterilised). After incubation, egg recoveries were reduced substantially in all non-sterilised soils whereas there were only minor reductions in sterilised soils. We next isolated and examined if particular egg-degrading fungi occurred in the non-sterilised soil that had exhibited the most extreme ovicidal activity (99%). The fungal isolates belonged to two genera (Metarhizium and Acremonium) with reported egg-degrading properties but when tested in vitro in agar assay, none of the three tested isolates of native fungi degraded >34% eggs, suggesting that these fungi may not individually have caused the reduction in egg survival in the non-sterilised soil. In conclusion, a range of natural soils showed inherent properties related to biotic factors to degrade nematode eggs. The biocontrol efficacy of both P. chlamydosporia Biotype 10 and M. brunneum KVL04-57 was very good in sterilised soil but currently limited in non-sterilised soil, potentially due to competition with natural soil biota in fungal establishment. Further research may determine if efficacy may be increased by changing the formulation.",

author = "Sundar Thapa and Helena Mejer and Thamsborg, {Stig Milan} and Lekfeldt, {Jonas Duus Stevens} and Rui Wang and Birgit Jensen and Jakob Magid and Meyling, {Nicolai Vitt}",

year = "2017",

doi = "10.1016/j.apsoil.2017.10.001",

language = "English",

volume = "121",

pages = "143--151",

journal = "Agro-Ecosystems",

issn = "0167-8809",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Survival of chicken ascarid eggs exposed to different soil types and fungi

AU - Thapa, Sundar

AU - Mejer, Helena

AU - Thamsborg, Stig Milan

AU - Lekfeldt, Jonas Duus Stevens

AU - Wang, Rui

AU - Jensen, Birgit

AU - Magid, Jakob

AU - Meyling, Nicolai Vitt

PY - 2017

Y1 - 2017

N2 - The eggs of intestinal ascarid parasites (Ascaridia galli and Heterakis spp.) of chickens can survive long-term in soil and this makes contaminated yards and pastures infective to chickens for years. The fungi Pochonia chlamydosporia Biotype 10 and Metarhizium brunneum KVL04-57 can kill ascarid eggs in agar assays but their efficacy against these eggs in soil is unknown. We therefore initially tested the ovicidal effect of the two fungi in laboratory soil assays. Unembryonated eggs were added to sterilised and non-sterilised soil with or without fungi, and egg recovery was examined before and after incubation (22 °C, 30 days). Egg recovery was substantially reduced by P. chlamydosporia and M. brunneum in sterilised soil. However, in non-sterilised soil only M. brunneum slightly reduced egg counts. Notably, egg recovery was reduced markedly in non-sterilised soil though no fungi were applied. To test if this is a general characteristic of natural soil, eggs were incubated in similar assays comprising 7 different soils (sterilised and non-sterilised). After incubation, egg recoveries were reduced substantially in all non-sterilised soils whereas there were only minor reductions in sterilised soils. We next isolated and examined if particular egg-degrading fungi occurred in the non-sterilised soil that had exhibited the most extreme ovicidal activity (99%). The fungal isolates belonged to two genera (Metarhizium and Acremonium) with reported egg-degrading properties but when tested in vitro in agar assay, none of the three tested isolates of native fungi degraded >34% eggs, suggesting that these fungi may not individually have caused the reduction in egg survival in the non-sterilised soil. In conclusion, a range of natural soils showed inherent properties related to biotic factors to degrade nematode eggs. The biocontrol efficacy of both P. chlamydosporia Biotype 10 and M. brunneum KVL04-57 was very good in sterilised soil but currently limited in non-sterilised soil, potentially due to competition with natural soil biota in fungal establishment. Further research may determine if efficacy may be increased by changing the formulation.

AB - The eggs of intestinal ascarid parasites (Ascaridia galli and Heterakis spp.) of chickens can survive long-term in soil and this makes contaminated yards and pastures infective to chickens for years. The fungi Pochonia chlamydosporia Biotype 10 and Metarhizium brunneum KVL04-57 can kill ascarid eggs in agar assays but their efficacy against these eggs in soil is unknown. We therefore initially tested the ovicidal effect of the two fungi in laboratory soil assays. Unembryonated eggs were added to sterilised and non-sterilised soil with or without fungi, and egg recovery was examined before and after incubation (22 °C, 30 days). Egg recovery was substantially reduced by P. chlamydosporia and M. brunneum in sterilised soil. However, in non-sterilised soil only M. brunneum slightly reduced egg counts. Notably, egg recovery was reduced markedly in non-sterilised soil though no fungi were applied. To test if this is a general characteristic of natural soil, eggs were incubated in similar assays comprising 7 different soils (sterilised and non-sterilised). After incubation, egg recoveries were reduced substantially in all non-sterilised soils whereas there were only minor reductions in sterilised soils. We next isolated and examined if particular egg-degrading fungi occurred in the non-sterilised soil that had exhibited the most extreme ovicidal activity (99%). The fungal isolates belonged to two genera (Metarhizium and Acremonium) with reported egg-degrading properties but when tested in vitro in agar assay, none of the three tested isolates of native fungi degraded >34% eggs, suggesting that these fungi may not individually have caused the reduction in egg survival in the non-sterilised soil. In conclusion, a range of natural soils showed inherent properties related to biotic factors to degrade nematode eggs. The biocontrol efficacy of both P. chlamydosporia Biotype 10 and M. brunneum KVL04-57 was very good in sterilised soil but currently limited in non-sterilised soil, potentially due to competition with natural soil biota in fungal establishment. Further research may determine if efficacy may be increased by changing the formulation.

U2 - 10.1016/j.apsoil.2017.10.001

DO - 10.1016/j.apsoil.2017.10.001

M3 - Journal article

VL - 121

SP - 143

EP - 151

JO - Agro-Ecosystems

JF - Agro-Ecosystems

SN - 0167-8809

ER -

ID: 185006027