Your search keyword '"Meghan Blumstein"' showing total 3 results

1. Evidence of nutrient translocation in response to smoke exposure by the East African ant acacia, Vachellia drepanolobium

Author

Richard Rabideau‐Childers, Katherine I. W. Angier, Brendan Z. M. Dean, Meghan Blumstein, Walker S. Darling, Annina Kennedy‐Yoon, Clayton H. Ziemke, Christian A. Perez‐Martinez, Donghao Wu, Wenqing Ye, Inam Yekwayo, Duncan M. Kimuyu, Dino J. Martins, and Naomi E. Pierce

Subjects

fire, Kenya, root‐shoot ratio, savanna, transport, volatile, Ecology, QH540-549.5

Abstract

Abstract Fire is a major selective force on arid grassland communities, favoring traits such as the smoke‐induced seed germination response seen in a wide variety of plant species. However, little is known about the relevance of smoke as a cue for plants beyond the seedling stage. We exposed a fire‐adapted savanna tree, Vachellia (=Acacia) drepanolobium, to smoke and compared nutrient concentrations in leaf and root tissues to unexposed controls. Experiments were performed on three age cohorts: 2‐year‐old, 9‐month‐old, and 3‐month‐old plants. For the 2‐year‐old plants exposed to smoke, carbon and nitrogen concentrations were lower in the leaves and higher in the roots than controls. Less pronounced trends were found for boron and magnesium. In contrast, smoke‐exposed 3‐month‐old plants had lower root nitrogen concentrations than controls. No significant differences were found in the 9‐month‐old plants, and no significant shifts in other nutrient concentrations were observed between plant tissues for any of the three age cohorts. Synthesis: Our findings are consistent with smoke‐induced translocation of nutrients from leaves to roots in 2‐year‐old V. drepanolobium. This could represent a novel form of fire adaptation, with variation over the course of plant development. The translocation differences between age cohorts highlight the need to investigate smoke response in older plants of other species. Accounting for this adaptation could better inform our understanding of savanna community structure and nutrient flows under fire regimes altered by anthropogenic land use and climate change.

Published

2022

2. Evidence of nutrient translocation in response to smoke exposure by the East African ant acacia, Vachellia drepanolobium

Author

Meghan Blumstein, Naomi E. Pierce, Donghao Wu, Inam Yekwayo, Clayton H. Ziemke, Wenqing Ye, Dino J. Martins, Annina Kennedy-Yoon, Walker S. Darling, Katherine I. W. Angier, Brendan Z. M. Dean, Richard Rabideau-Childers, Christian A. Perez-Martinez, and Duncan M. Kimuyu

Subjects

Ecology, root‐shoot ratio, Acacia, food and beverages, Chromosomal translocation, Biology, biology.organism_classification, Vachellia drepanolobium, Smoke exposure, Kenya, volatile, ANT, savanna, Nutrient, Botany, transport, Root shoot ratio, Ecology, Evolution, Behavior and Systematics, fire, QH540-549.5, Nature and Landscape Conservation

Abstract

Fire is a major selective force on arid grassland communities, favoring traits such as the smoke‐induced seed germination response seen in a wide variety of plant species. However, little is known about the relevance of smoke as a cue for plants beyond the seedling stage. We exposed a fire‐adapted savanna tree, Vachellia (=Acacia) drepanolobium, to smoke and compared nutrient concentrations in leaf and root tissues to unexposed controls. Experiments were performed on three age cohorts: 2‐year‐old, 9‐month‐old, and 3‐month‐old plants. For the 2‐year‐old plants exposed to smoke, carbon and nitrogen concentrations were lower in the leaves and higher in the roots than controls. Less pronounced trends were found for boron and magnesium. In contrast, smoke‐exposed 3‐month‐old plants had lower root nitrogen concentrations than controls. No significant differences were found in the 9‐month‐old plants, and no significant shifts in other nutrient concentrations were observed between plant tissues for any of the three age cohorts. Synthesis: Our findings are consistent with smoke‐induced translocation of nutrients from leaves to roots in 2‐year‐old V. drepanolobium. This could represent a novel form of fire adaptation, with variation over the course of plant development. The translocation differences between age cohorts highlight the need to investigate smoke response in older plants of other species. Accounting for this adaptation could better inform our understanding of savanna community structure and nutrient flows under fire regimes altered by anthropogenic land use and climate change.

Published

2022

3. Evidence of nutrient translocation in response to smoke exposure by the East African ant acacia

Author

Richard, Rabideau-Childers, Katherine I W, Angier, Brendan Z M, Dean, Meghan, Blumstein, Walker S, Darling, Annina, Kennedy-Yoon, Clayton H, Ziemke, Christian A, Perez-Martinez, Donghao, Wu, Wenqing, Ye, Inam, Yekwayo, Duncan M, Kimuyu, Dino J, Martins, and Naomi E, Pierce

Subjects

root‐shoot ratio, transport, food and beverages, Kenya, volatile, Research Articles, fire, savanna, Research Article

Abstract

Fire is a major selective force on arid grassland communities, favoring traits such as the smoke‐induced seed germination response seen in a wide variety of plant species. However, little is known about the relevance of smoke as a cue for plants beyond the seedling stage.We exposed a fire‐adapted savanna tree, Vachellia (=Acacia) drepanolobium, to smoke and compared nutrient concentrations in leaf and root tissues to unexposed controls. Experiments were performed on three age cohorts: 2‐year‐old, 9‐month‐old, and 3‐month‐old plants.For the 2‐year‐old plants exposed to smoke, carbon and nitrogen concentrations were lower in the leaves and higher in the roots than controls. Less pronounced trends were found for boron and magnesium.In contrast, smoke‐exposed 3‐month‐old plants had lower root nitrogen concentrations than controls. No significant differences were found in the 9‐month‐old plants, and no significant shifts in other nutrient concentrations were observed between plant tissues for any of the three age cohorts. Synthesis: Our findings are consistent with smoke‐induced translocation of nutrients from leaves to roots in 2‐year‐old V. drepanolobium. This could represent a novel form of fire adaptation, with variation over the course of plant development. The translocation differences between age cohorts highlight the need to investigate smoke response in older plants of other species. Accounting for this adaptation could better inform our understanding of savanna community structure and nutrient flows under fire regimes altered by anthropogenic land use and climate change., We exposed a fire‐adapted savanna tree, Vachellia (=Acacia) drepanolobium, to smoke and compared nutrient concentrations in leaf and root tissues to unexposed controls. Our findings suggest trees may detect smoke and respond by translocating nutrients from leaves to roots, a potential mechanism for improving survival and post‐fire resprouting.

Published

2021