Effects of freezing temperatures on early life stages of native trees of different elevational origin: implications for tree recruitment in seasonally dry mountain forests

Effects of freezing temperatures on early life stages of native trees of different elevational origin: implications for tree recruitment in seasonally dry mountain forests

ABSTRACT In mountain forests, tree regeneration is limited by increasingly frequent frosts with increasing elevation. We investigated the effects of exposure to freezing temperature on early life stages of two native trees of different elevational origin in a seasonally dry mountain forest. We hypot...

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Veröffentlicht in:Plant biology (Stuttgart, Germany) Germany), 2024-01, Vol.26 (1), p.63-73
Hauptverfasser: Torres, R. C., Valfré‐Giorello, T. A., Cingolani, A. M., Cáceres, Y., Barberá, I., Hensen, I., Renison, D.
Format: Artikel
Sprache:eng
Schlagworte:
Altitude
Cold Temperature
Exposure
Forests
Freezing
Frost resistance
Germination
gradient
Lithrea molleoides
Maternal effects
Mountain forests
Mountains
Plant species
Recruitment
regeneration
Seed germination
seed origin
Seedlings
Seeds
Survival
Temperature
Trees
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container_end_page 73
container_issue 1
container_start_page 63
container_title Plant biology (Stuttgart, Germany)
container_volume 26
creator Torres, R. C.
Valfré‐Giorello, T. A.
Cingolani, A. M.
Cáceres, Y.
Barberá, I.
Hensen, I.
Renison, D.
description ABSTRACT In mountain forests, tree regeneration is limited by increasingly frequent frosts with increasing elevation. We investigated the effects of exposure to freezing temperature on early life stages of two native trees of different elevational origin in a seasonally dry mountain forest. We hypothesized that the negative effects of freezing exposure on performance of early life stages increases as freezing temperature decreases, and that frost resistance increases in plants of high elevational origin. We collected seeds of two tree species (Kageneckia lanceolata and Lithraea molleoides) from populations located at different elevations and grew seedlings and saplings in a greenhouse. Dry seeds, imbibed seeds and 1‐month‐old seedlings were exposed to seven temperature treatments ranging from 4 °C to −20 °C, while 12‐month‐old saplings were exposed to four temperature treatments from −8 °C to −20 °C. After freezing exposure in a climate chamber, we monitored seed germination and seedling and sapling survival. Germination of K. lanceolata decreased with decreasing temperature only for imbibed seeds from mid‐ and high elevations, whereas germination of L. molleoides slightly increased with decreasing temperature only for imbibed seeds from high elevations. For both species, seedling survival decreased with decreasing temperature. For K. lanceolata, the negative effects of freezing temperatures were weaker as elevational origin of seeds increased, whereas L. molleoides showed the opposite pattern. For both species, saplings only survived at the mildest applied freezing temperature (−8 °C). We conclude that effects of climatic variation associated with elevation depend on the study species and life stage. The observed patterns could be caused by maternal effects, which are absent at the sapling stage. Moreover, temperatures below −8 °C can limit recruitment since partial mortality of seedlings and saplings occurred at such values. The response of early life stages of tree species to freezing temperatures depends on elevational origin but also vary among species.
doi_str_mv 10.1111/plb.13590
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Dry seeds, imbibed seeds and 1‐month‐old seedlings were exposed to seven temperature treatments ranging from 4 °C to −20 °C, while 12‐month‐old saplings were exposed to four temperature treatments from −8 °C to −20 °C. After freezing exposure in a climate chamber, we monitored seed germination and seedling and sapling survival. Germination of K. lanceolata decreased with decreasing temperature only for imbibed seeds from mid‐ and high elevations, whereas germination of L. molleoides slightly increased with decreasing temperature only for imbibed seeds from high elevations. For both species, seedling survival decreased with decreasing temperature. For K. lanceolata, the negative effects of freezing temperatures were weaker as elevational origin of seeds increased, whereas L. molleoides showed the opposite pattern. For both species, saplings only survived at the mildest applied freezing temperature (−8 °C). We conclude that effects of climatic variation associated with elevation depend on the study species and life stage. The observed patterns could be caused by maternal effects, which are absent at the sapling stage. Moreover, temperatures below −8 °C can limit recruitment since partial mortality of seedlings and saplings occurred at such values. 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For both species, seedling survival decreased with decreasing temperature. For K. lanceolata, the negative effects of freezing temperatures were weaker as elevational origin of seeds increased, whereas L. molleoides showed the opposite pattern. For both species, saplings only survived at the mildest applied freezing temperature (−8 °C). We conclude that effects of climatic variation associated with elevation depend on the study species and life stage. The observed patterns could be caused by maternal effects, which are absent at the sapling stage. Moreover, temperatures below −8 °C can limit recruitment since partial mortality of seedlings and saplings occurred at such values. 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We hypothesized that the negative effects of freezing exposure on performance of early life stages increases as freezing temperature decreases, and that frost resistance increases in plants of high elevational origin. We collected seeds of two tree species (Kageneckia lanceolata and Lithraea molleoides) from populations located at different elevations and grew seedlings and saplings in a greenhouse. Dry seeds, imbibed seeds and 1‐month‐old seedlings were exposed to seven temperature treatments ranging from 4 °C to −20 °C, while 12‐month‐old saplings were exposed to four temperature treatments from −8 °C to −20 °C. After freezing exposure in a climate chamber, we monitored seed germination and seedling and sapling survival. Germination of K. lanceolata decreased with decreasing temperature only for imbibed seeds from mid‐ and high elevations, whereas germination of L. molleoides slightly increased with decreasing temperature only for imbibed seeds from high elevations. For both species, seedling survival decreased with decreasing temperature. For K. lanceolata, the negative effects of freezing temperatures were weaker as elevational origin of seeds increased, whereas L. molleoides showed the opposite pattern. For both species, saplings only survived at the mildest applied freezing temperature (−8 °C). We conclude that effects of climatic variation associated with elevation depend on the study species and life stage. The observed patterns could be caused by maternal effects, which are absent at the sapling stage. Moreover, temperatures below −8 °C can limit recruitment since partial mortality of seedlings and saplings occurred at such values. 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source MEDLINE; Wiley Journals
subjects Altitude
Cold Temperature
Exposure
Forests
Freezing
Frost resistance
Germination
gradient
Lithrea molleoides
Maternal effects
Mountain forests
Mountains
Plant species
Recruitment
regeneration
Seed germination
seed origin
Seedlings
Seeds
Survival
Temperature
Trees
title Effects of freezing temperatures on early life stages of native trees of different elevational origin: implications for tree recruitment in seasonally dry mountain forests
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