Influence of the 2021 Brood X cicada emergence on near surface hydrology in forested and urban landscapes

The 2021 emergence of the 17‐year Brood X cicadas (Magicicada septendecim, M. cassinii, and M. septendecula) saw billions of cicadas emerge from the soil throughout the midwestern and eastern United States. The emergence left connected burrows visible at the surface, which are hypothesized to affect...

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Published inHydrological processes Vol. 37; no. 2
Main Authors Ficklin, Darren L., Kelleher, Christa, Bergan, Ellen V., Myers, Daniel T., Adelsperger, Seth, Hardman, Erin
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.02.2023
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Abstract The 2021 emergence of the 17‐year Brood X cicadas (Magicicada septendecim, M. cassinii, and M. septendecula) saw billions of cicadas emerge from the soil throughout the midwestern and eastern United States. The emergence left connected burrows visible at the surface, which are hypothesized to affect near surface hydrologic processes. To investigate these processes, we used single‐ring, dual head infiltrometers to measure field saturated hydraulic conductivity (Kfs, n = 70) across patterns of emergence and land use in south‐central Indiana, USA. Our experimental design included locations with and without cicada burrows in forested (undisturbed) and urbanized (disturbed) areas. Across undisturbed sites, we found a significant 80.8% increase in Kfs between soils with (median = 14.1 cm/h; n = 20) and without (median = 7.8 cm/h; n = 20) cicada burrows. At disturbed sites, we found no significant difference in Kfs between sites with (median = 4.2 cm/h; n = 18) and without (median = 4.4 cm/h; n = 12) cicada burrows. We found a significant correlation between the number of burrows present at the surface and Kfs rates for undisturbed sites (ρ$$ \rho $$ = 0.42; p = 0.008), while no correlation was found for the disturbed sites (ρ$$ \rho $$ = −0.09; p = 0.62). Our measurements suggest that the effect of burrows on Kfs is minimized in urbanized areas, potentially due to compaction and other impacts from human disturbance that mitigate the presence of macropores left by cicadas. In contrast, surface‐connected macroporosity from Brood X cicada burrows in undisturbed areas act as a conduit for precipitation into the soil profile and bypass flow into deeper horizons and the shallow groundwater table, with implications for runoff dynamics, soil and groundwater recharge and quality, and nutrient cycling.
AbstractList The 2021 emergence of the 17‐year Brood X cicadas (Magicicada septendecim, M. cassinii, and M. septendecula) saw billions of cicadas emerge from the soil throughout the midwestern and eastern United States. The emergence left connected burrows visible at the surface, which are hypothesized to affect near surface hydrologic processes. To investigate these processes, we used single‐ring, dual head infiltrometers to measure field saturated hydraulic conductivity (Kfs, n = 70) across patterns of emergence and land use in south‐central Indiana, USA. Our experimental design included locations with and without cicada burrows in forested (undisturbed) and urbanized (disturbed) areas. Across undisturbed sites, we found a significant 80.8% increase in Kfs between soils with (median = 14.1 cm/h; n = 20) and without (median = 7.8 cm/h; n = 20) cicada burrows. At disturbed sites, we found no significant difference in Kfs between sites with (median = 4.2 cm/h; n = 18) and without (median = 4.4 cm/h; n = 12) cicada burrows. We found a significant correlation between the number of burrows present at the surface and Kfs rates for undisturbed sites (ρ$$ \rho $$ = 0.42; p = 0.008), while no correlation was found for the disturbed sites (ρ$$ \rho $$ = −0.09; p = 0.62). Our measurements suggest that the effect of burrows on Kfs is minimized in urbanized areas, potentially due to compaction and other impacts from human disturbance that mitigate the presence of macropores left by cicadas. In contrast, surface‐connected macroporosity from Brood X cicada burrows in undisturbed areas act as a conduit for precipitation into the soil profile and bypass flow into deeper horizons and the shallow groundwater table, with implications for runoff dynamics, soil and groundwater recharge and quality, and nutrient cycling.
The 2021 emergence of the 17‐year Brood X cicadas (Magicicada septendecim, M. cassinii, and M. septendecula) saw billions of cicadas emerge from the soil throughout the midwestern and eastern United States. The emergence left connected burrows visible at the surface, which are hypothesized to affect near surface hydrologic processes. To investigate these processes, we used single‐ring, dual head infiltrometers to measure field saturated hydraulic conductivity (Kfs, n = 70) across patterns of emergence and land use in south‐central Indiana, USA. Our experimental design included locations with and without cicada burrows in forested (undisturbed) and urbanized (disturbed) areas. Across undisturbed sites, we found a significant 80.8% increase in Kfs between soils with (median = 14.1 cm/h; n = 20) and without (median = 7.8 cm/h; n = 20) cicada burrows. At disturbed sites, we found no significant difference in Kfs between sites with (median = 4.2 cm/h; n = 18) and without (median = 4.4 cm/h; n = 12) cicada burrows. We found a significant correlation between the number of burrows present at the surface and Kfs rates for undisturbed sites (ρ$$ \rho $$ = 0.42; p = 0.008), while no correlation was found for the disturbed sites (ρ$$ \rho $$ = −0.09; p = 0.62). Our measurements suggest that the effect of burrows on Kfs is minimized in urbanized areas, potentially due to compaction and other impacts from human disturbance that mitigate the presence of macropores left by cicadas. In contrast, surface‐connected macroporosity from Brood X cicada burrows in undisturbed areas act as a conduit for precipitation into the soil profile and bypass flow into deeper horizons and the shallow groundwater table, with implications for runoff dynamics, soil and groundwater recharge and quality, and nutrient cycling.
The 2021 emergence of the 17‐year Brood X cicadas ( Magicicada septendecim , M. cassinii , and M. septendecula ) saw billions of cicadas emerge from the soil throughout the midwestern and eastern United States. The emergence left connected burrows visible at the surface, which are hypothesized to affect near surface hydrologic processes. To investigate these processes, we used single‐ring, dual head infiltrometers to measure field saturated hydraulic conductivity ( K fs , n  = 70) across patterns of emergence and land use in south‐central Indiana, USA. Our experimental design included locations with and without cicada burrows in forested (undisturbed) and urbanized (disturbed) areas. Across undisturbed sites, we found a significant 80.8% increase in K fs between soils with (median = 14.1 cm/h; n  = 20) and without (median = 7.8 cm/h; n  = 20) cicada burrows. At disturbed sites, we found no significant difference in K fs between sites with (median = 4.2 cm/h; n  = 18) and without (median = 4.4 cm/h; n  = 12) cicada burrows. We found a significant correlation between the number of burrows present at the surface and K fs rates for undisturbed sites ( = 0.42; p =  0.008), while no correlation was found for the disturbed sites ( = −0.09; p =  0.62). Our measurements suggest that the effect of burrows on K fs is minimized in urbanized areas, potentially due to compaction and other impacts from human disturbance that mitigate the presence of macropores left by cicadas. In contrast, surface‐connected macroporosity from Brood X cicada burrows in undisturbed areas act as a conduit for precipitation into the soil profile and bypass flow into deeper horizons and the shallow groundwater table, with implications for runoff dynamics, soil and groundwater recharge and quality, and nutrient cycling.
Author Hardman, Erin
Bergan, Ellen V.
Ficklin, Darren L.
Adelsperger, Seth
Kelleher, Christa
Myers, Daniel T.
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CitedBy_id crossref_primary_10_1016_j_catena_2023_107253
crossref_primary_10_1111_ele_14349
crossref_primary_10_1126_science_adi7426
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Snippet The 2021 emergence of the 17‐year Brood X cicadas (Magicicada septendecim, M. cassinii, and M. septendecula) saw billions of cicadas emerge from the soil...
The 2021 emergence of the 17‐year Brood X cicadas ( Magicicada septendecim , M. cassinii , and M. septendecula ) saw billions of cicadas emerge from the soil...
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SubjectTerms Burrows
Cicadidae
Correlation
Design of experiments
Emergence
Experimental design
Groundwater
Groundwater levels
Groundwater quality
Groundwater recharge
Groundwater runoff
Groundwater table
Human impact
Hydraulic conductivity
Hydrologic processes
Hydrology
Infiltrometers
Land use
macropore
Macroporosity
Nutrient cycles
Nutrient dynamics
Runoff
saturated hydraulic conductivity
single ring infiltrometer
Soil
Soil compaction
Soil dynamics
Soil profiles
Soil properties
soil water infiltration
Urban environments
Water table
Zoobenthos
Title Influence of the 2021 Brood X cicada emergence on near surface hydrology in forested and urban landscapes
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fhyp.14822
https://www.proquest.com/docview/2779938505
Volume 37
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