Frost hinders the establishment of trees in highland grasslands in the Atlantic Forest ecotone region of southern Brazil
Questions Cold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We examined the role of frost on the survival and regrowth of tree saplings under field conditions of open grasslands. Location Cambará do Sul, Rio Gran...
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| Published in | Journal of vegetation science Vol. 32; no. 4 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken
Wiley Subscription Services, Inc
01.07.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1100-9233 1654-1103 |
| DOI | 10.1111/jvs.13053 |
Cover
| Abstract | Questions
Cold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We examined the role of frost on the survival and regrowth of tree saplings under field conditions of open grasslands.
Location
Cambará do Sul, Rio Grande do Sul.
Methods
We established a field experiment protecting one of two groups of saplings of forest species from frost in grassland areas during the winter. We monitored 672 saplings from a total of seven species for 56 days. Saplings were brought back to the laboratory to evaluate regrowth rate and height. Survival curves of the two groups were compared using a Kaplan–Meier estimator. Correlation analysis was undertaken to estimate the relationship between survival and regrowth rate and a variance analysis was used to compare plant height between both groups.
Results
Species respond distinctly to frost incidence, with some not being affected by frost (two gymnosperms and Myrcianthes pungens). Most protected saplings had a higher above‐ground survival rate than unprotected ones (96.4% and 73.2%, respectively). Moreover, saplings that were damaged by frost showed differences in regrowth and height according to species identity, notwithstanding the fact that those from protected plots showed higher regrowth and height (88% and 25.65 cm compared to 68% and 17.15 cm).
Conclusions
Our results showed clear negative effects of frost on the survival rate of aerial parts of saplings during the winter and the regeneration of damaged plants. Species‐specific traits can offer frost resistance; however, together with other disturbances, frost may hinder the establishment of forest trees over grassland areas where frost events are common during the winter.
Grassland–forest mosaics are often subject to disturbances that help maintain these unique ecosystems. In this paper we show that frost can have a significant effect halting the expansion of forest species over grasslands areas where this type of disturbance is common during the winter. With a field experiment, we demonstrate a clear negative effect of frost on the survival rate of aerial parts and on the regrowth rate and height of saplings of forest species. |
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| AbstractList | QuestionsCold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We examined the role of frost on the survival and regrowth of tree saplings under field conditions of open grasslands.LocationCambará do Sul, Rio Grande do Sul.MethodsWe established a field experiment protecting one of two groups of saplings of forest species from frost in grassland areas during the winter. We monitored 672 saplings from a total of seven species for 56 days. Saplings were brought back to the laboratory to evaluate regrowth rate and height. Survival curves of the two groups were compared using a Kaplan–Meier estimator. Correlation analysis was undertaken to estimate the relationship between survival and regrowth rate and a variance analysis was used to compare plant height between both groups.ResultsSpecies respond distinctly to frost incidence, with some not being affected by frost (two gymnosperms and Myrcianthes pungens). Most protected saplings had a higher above‐ground survival rate than unprotected ones (96.4% and 73.2%, respectively). Moreover, saplings that were damaged by frost showed differences in regrowth and height according to species identity, notwithstanding the fact that those from protected plots showed higher regrowth and height (88% and 25.65 cm compared to 68% and 17.15 cm).ConclusionsOur results showed clear negative effects of frost on the survival rate of aerial parts of saplings during the winter and the regeneration of damaged plants. Species‐specific traits can offer frost resistance; however, together with other disturbances, frost may hinder the establishment of forest trees over grassland areas where frost events are common during the winter. QUESTIONS: Cold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We examined the role of frost on the survival and regrowth of tree saplings under field conditions of open grasslands. LOCATION: Cambará do Sul, Rio Grande do Sul. METHODS: We established a field experiment protecting one of two groups of saplings of forest species from frost in grassland areas during the winter. We monitored 672 saplings from a total of seven species for 56 days. Saplings were brought back to the laboratory to evaluate regrowth rate and height. Survival curves of the two groups were compared using a Kaplan–Meier estimator. Correlation analysis was undertaken to estimate the relationship between survival and regrowth rate and a variance analysis was used to compare plant height between both groups. RESULTS: Species respond distinctly to frost incidence, with some not being affected by frost (two gymnosperms and Myrcianthes pungens). Most protected saplings had a higher above‐ground survival rate than unprotected ones (96.4% and 73.2%, respectively). Moreover, saplings that were damaged by frost showed differences in regrowth and height according to species identity, notwithstanding the fact that those from protected plots showed higher regrowth and height (88% and 25.65 cm compared to 68% and 17.15 cm). CONCLUSIONS: Our results showed clear negative effects of frost on the survival rate of aerial parts of saplings during the winter and the regeneration of damaged plants. Species‐specific traits can offer frost resistance; however, together with other disturbances, frost may hinder the establishment of forest trees over grassland areas where frost events are common during the winter. Questions Cold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We examined the role of frost on the survival and regrowth of tree saplings under field conditions of open grasslands. Location Cambará do Sul, Rio Grande do Sul. Methods We established a field experiment protecting one of two groups of saplings of forest species from frost in grassland areas during the winter. We monitored 672 saplings from a total of seven species for 56 days. Saplings were brought back to the laboratory to evaluate regrowth rate and height. Survival curves of the two groups were compared using a Kaplan–Meier estimator. Correlation analysis was undertaken to estimate the relationship between survival and regrowth rate and a variance analysis was used to compare plant height between both groups. Results Species respond distinctly to frost incidence, with some not being affected by frost (two gymnosperms and Myrcianthes pungens). Most protected saplings had a higher above‐ground survival rate than unprotected ones (96.4% and 73.2%, respectively). Moreover, saplings that were damaged by frost showed differences in regrowth and height according to species identity, notwithstanding the fact that those from protected plots showed higher regrowth and height (88% and 25.65 cm compared to 68% and 17.15 cm). Conclusions Our results showed clear negative effects of frost on the survival rate of aerial parts of saplings during the winter and the regeneration of damaged plants. Species‐specific traits can offer frost resistance; however, together with other disturbances, frost may hinder the establishment of forest trees over grassland areas where frost events are common during the winter. Grassland–forest mosaics are often subject to disturbances that help maintain these unique ecosystems. In this paper we show that frost can have a significant effect halting the expansion of forest species over grasslands areas where this type of disturbance is common during the winter. With a field experiment, we demonstrate a clear negative effect of frost on the survival rate of aerial parts and on the regrowth rate and height of saplings of forest species. |
| Author | Cristina Müller, Sandra Araujo Frangipani, Marcelo Anand, Madhur Collins, Beverly |
| Author_xml | – sequence: 1 givenname: Marcelo orcidid: 0000-0001-8050-8282 surname: Araujo Frangipani fullname: Araujo Frangipani, Marcelo email: marcelo.frangipani@gmail.com organization: Federal University of Rio Grande do Sul (UFRGS – sequence: 2 givenname: Sandra orcidid: 0000-0002-6316-2897 surname: Cristina Müller fullname: Cristina Müller, Sandra organization: Federal University of Rio Grande do Sul (UFRGS – sequence: 3 givenname: Madhur orcidid: 0000-0002-2425-4502 surname: Anand fullname: Anand, Madhur organization: University of Guelph – sequence: 4 givenname: Beverly surname: Collins fullname: Collins, Beverly |
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| Copyright | 2021 International Association for Vegetation Science Copyright © 2021 International Association for Vegetation Science |
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Cold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We examined... QuestionsCold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We examined... QUESTIONS: Cold temperatures and freezing may hinder the process of forest expansion in moist climate regions, as predicted by the frost hypothesis. We... |
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| SubjectTerms | Araucaria forest Atlantic forest Brazil climate change Climate prediction cold Correlation analysis disturbance ecotones field experimentation Forests forest‐grasslands mosaics Freezing Frost Frost damage frost incidence Frost resistance functional traits Grasslands Gymnosperms plant height Regeneration Regrowth regrowth ability Species Survival survival rate Trees variance Variance analysis Winter |
| Title | Frost hinders the establishment of trees in highland grasslands in the Atlantic Forest ecotone region of southern Brazil |
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