Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk
Abstract1. Variation in offspring development is expected to be driven by constraints on resource allocation between growth and maintenance (e.g., thermoregulation). Rapid post-natal development decreases predation risk, while inclement weather likely prolongs development. For taxa with parental car...
| Main Authors: | , , , |
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| Format: | Dataset |
| Language: | unknown |
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Borealis
2021
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| Subjects: | |
| Online Access: | https://search.dataone.org/view/sha256:2d03ffaaa4681ccc1f5fdca03af76bd6c0c5ee1bfe60f20481c16c9dc279b297 |
| id |
dataone:sha256:2d03ffaaa4681ccc1f5fdca03af76bd6c0c5ee1bfe60f20481c16c9dc279b297 |
|---|---|
| record_format |
openpolar |
| institution |
Open Polar |
| collection |
Borealis (via DataONE) |
| op_collection_id |
dataone:urn:node:BOREALIS |
| language |
unknown |
| topic |
developmental carry-over effects incubation duration alpine ecology Horned Lark Holocene ground-nesting songbird Other nestling period length Eremophila alpestris path analysis |
| spellingShingle |
developmental carry-over effects incubation duration alpine ecology Horned Lark Holocene ground-nesting songbird Other nestling period length Eremophila alpestris path analysis de Zwaan, Devin R. Camfield, Alaine F. MacDonald, Elizabeth C. Martin, Kathy Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk |
| topic_facet |
developmental carry-over effects incubation duration alpine ecology Horned Lark Holocene ground-nesting songbird Other nestling period length Eremophila alpestris path analysis |
| description |
Abstract1. Variation in offspring development is expected to be driven by constraints on resource allocation between growth and maintenance (e.g., thermoregulation). Rapid post-natal development decreases predation risk, while inclement weather likely prolongs development. For taxa with parental care, parental behaviour may buffer offspring against some extrinsic drivers. 2. Using a 7-year dataset from an alpine population of horned lark Eremophila alpestris, a ground-nesting songbird in northern British Columbia, Canada, we investigated multiple potential drivers of variation in incubation and nestling development duration. 3. Using path analysis, we evaluated the direct effects of weather, predation risk, and parental care on offspring development, as well as, indirect developmental ‘carry-over’ effects of conditions during incubation on the nestling period. 4. Nestling period duration varied by nearly 100% (7–13 days) and incubation duration by 40% (10–14 days). Cold ambient temperatures late in the nestling period prolonged development by 1 day for every 2 days below 10°C; particularly when combined with heavy precipitation. Rapid nestling development was associated with high predation risk, and prolonging development incurred a nest survival cost (–2.3%/day). Females in good condition created nest environments that promoted rapid nestling development periods (average = 8–9 days) compared to poor condition females during harsh, early-season conditions (10–11 days), indicating buffering capabilities against environmental constraints. Incubation duration was only weakly correlated with fledging age (r = –0.21) suggesting minimal developmental carry-over effects. 5. Given high nest predation risk, immediate fitness benefits can be derived by overcoming environmental constraints and reducing development time. While predation risk was influential, inclement weather and maternal condition had stronger effects on within-population variation in development time. We highlight the importance of addressing multiple drivers of variation in key life-history traits and provide context for understanding life-history theory under changing environmental conditions., Usage notesDevelopment time for an alpine population of Horned LarkData was collected in the field from 2003 to 2011 by Alaine Camfield, Elizabeth MacDonald, and Kathy Martin. The variables 'Clutch initiation', 'Incubation initiation', 'Hatch date', and 'Fledge date' are in Julian date format. 'Predation risk' is the probability of nest loss per month calculated using the Mayfield estimate.Weather data for Hudson Bay Mountain, 2003-2011Temperature and precipitation data collected on Hudson Bay Mountain (alpine field site) over the years 2003, 2004, 3005, 2006, 2007, 2010, and 2011. Data was collected by Alaine Camfield, Kathy Martin and Will MacKenzie. SA stands for 'Smithers Airport' which was the closest weather station with available precipitation data early in the study when precipitation was not available for the study site. See associated paper for more details.Weather data for Hudson Bay Mountain_2003 to 2011.xlsx |
| format |
Dataset |
| author |
de Zwaan, Devin R. Camfield, Alaine F. MacDonald, Elizabeth C. Martin, Kathy |
| author_facet |
de Zwaan, Devin R. Camfield, Alaine F. MacDonald, Elizabeth C. Martin, Kathy |
| author_sort |
de Zwaan, Devin R. |
| title |
Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk |
| title_short |
Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk |
| title_full |
Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk |
| title_fullStr |
Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk |
| title_full_unstemmed |
Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk |
| title_sort |
data from: variation in offspring development is driven more by weather and maternal condition than predation risk |
| publisher |
Borealis |
| publishDate |
2021 |
| url |
https://search.dataone.org/view/sha256:2d03ffaaa4681ccc1f5fdca03af76bd6c0c5ee1bfe60f20481c16c9dc279b297 |
| long_lat |
ENVELOPE(-125.003,-125.003,54.000,54.000) ENVELOPE(-127.174,-127.174,54.780,54.780) ENVELOPE(-127.271,-127.271,54.769,54.769) ENVELOPE(-127.183,-127.183,54.825,54.825) |
| geographic |
Hudson Bay Canada Hudson British Columbia Smithers Hudson Bay Mountain Smithers Airport |
| geographic_facet |
Hudson Bay Canada Hudson British Columbia Smithers Hudson Bay Mountain Smithers Airport |
| genre |
Eremophila alpestris Hudson Bay |
| genre_facet |
Eremophila alpestris Hudson Bay |
| _version_ |
1814736194766897152 |
| spelling |
dataone:sha256:2d03ffaaa4681ccc1f5fdca03af76bd6c0c5ee1bfe60f20481c16c9dc279b297 2024-11-03T19:45:14+00:00 Data from: Variation in offspring development is driven more by weather and maternal condition than predation risk de Zwaan, Devin R. Camfield, Alaine F. MacDonald, Elizabeth C. Martin, Kathy 2021-05-19T00:00:00Z https://search.dataone.org/view/sha256:2d03ffaaa4681ccc1f5fdca03af76bd6c0c5ee1bfe60f20481c16c9dc279b297 unknown Borealis developmental carry-over effects incubation duration alpine ecology Horned Lark Holocene ground-nesting songbird Other nestling period length Eremophila alpestris path analysis Dataset 2021 dataone:urn:node:BOREALIS 2024-11-03T19:17:11Z Abstract1. Variation in offspring development is expected to be driven by constraints on resource allocation between growth and maintenance (e.g., thermoregulation). Rapid post-natal development decreases predation risk, while inclement weather likely prolongs development. For taxa with parental care, parental behaviour may buffer offspring against some extrinsic drivers. 2. Using a 7-year dataset from an alpine population of horned lark Eremophila alpestris, a ground-nesting songbird in northern British Columbia, Canada, we investigated multiple potential drivers of variation in incubation and nestling development duration. 3. Using path analysis, we evaluated the direct effects of weather, predation risk, and parental care on offspring development, as well as, indirect developmental ‘carry-over’ effects of conditions during incubation on the nestling period. 4. Nestling period duration varied by nearly 100% (7–13 days) and incubation duration by 40% (10–14 days). Cold ambient temperatures late in the nestling period prolonged development by 1 day for every 2 days below 10°C; particularly when combined with heavy precipitation. Rapid nestling development was associated with high predation risk, and prolonging development incurred a nest survival cost (–2.3%/day). Females in good condition created nest environments that promoted rapid nestling development periods (average = 8–9 days) compared to poor condition females during harsh, early-season conditions (10–11 days), indicating buffering capabilities against environmental constraints. Incubation duration was only weakly correlated with fledging age (r = –0.21) suggesting minimal developmental carry-over effects. 5. Given high nest predation risk, immediate fitness benefits can be derived by overcoming environmental constraints and reducing development time. While predation risk was influential, inclement weather and maternal condition had stronger effects on within-population variation in development time. We highlight the importance of addressing multiple drivers of variation in key life-history traits and provide context for understanding life-history theory under changing environmental conditions., Usage notesDevelopment time for an alpine population of Horned LarkData was collected in the field from 2003 to 2011 by Alaine Camfield, Elizabeth MacDonald, and Kathy Martin. The variables 'Clutch initiation', 'Incubation initiation', 'Hatch date', and 'Fledge date' are in Julian date format. 'Predation risk' is the probability of nest loss per month calculated using the Mayfield estimate.Weather data for Hudson Bay Mountain, 2003-2011Temperature and precipitation data collected on Hudson Bay Mountain (alpine field site) over the years 2003, 2004, 3005, 2006, 2007, 2010, and 2011. Data was collected by Alaine Camfield, Kathy Martin and Will MacKenzie. SA stands for 'Smithers Airport' which was the closest weather station with available precipitation data early in the study when precipitation was not available for the study site. See associated paper for more details.Weather data for Hudson Bay Mountain_2003 to 2011.xlsx Dataset Eremophila alpestris Hudson Bay Borealis (via DataONE) Hudson Bay Canada Hudson British Columbia ENVELOPE(-125.003,-125.003,54.000,54.000) Smithers ENVELOPE(-127.174,-127.174,54.780,54.780) Hudson Bay Mountain ENVELOPE(-127.271,-127.271,54.769,54.769) Smithers Airport ENVELOPE(-127.183,-127.183,54.825,54.825) |