Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest

Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest

Co-occurring species may adopt different water-use strategies to adapt to limited soil water. In Jiuzhaigou Valley, a continuous decline in soil water after an initial recharge from the thawing of snow and frozen soil in early spring was observed, but its effects on the sap flow dynamics of co-occur...

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Main Authors: Chunhua Yan, Bei Wang, Yang Zhang, Xiaonan Zhang, Shinichi Takeuchi, Guo Yu Qiu
Format: Article
Language:English
Published: MDPI AG 2018-01-01
Series:Forests
Subjects:
sap flow
water-use strategy
meteorological factors
soil-water availability
proper reforestation practice
Online Access:http://www.mdpi.com/1999-4907/9/1/32
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spelling doaj-66ed57a107574a5e846e0cf86845dd052020-11-24T20:51:07ZengMDPI AGForests1999-49072018-01-01913210.3390/f9010032f9010032Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine ForestChunhua Yan0Bei Wang1Yang Zhang2Xiaonan Zhang3Shinichi Takeuchi4Guo Yu Qiu5Shenzhen Engineering Laboratory for Water Desalinization with Renewable Energy, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055, ChinaShenzhen Engineering Laboratory for Water Desalinization with Renewable Energy, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055, ChinaShenzhen Engineering Laboratory for Water Desalinization with Renewable Energy, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055, ChinaShenzhen Engineering Laboratory for Water Desalinization with Renewable Energy, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055, ChinaFaculty of Environmental Horticulture, Minami Kyushu University, Miyakonojyo City, Miyazaki 885-0035, JapanShenzhen Engineering Laboratory for Water Desalinization with Renewable Energy, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055, ChinaCo-occurring species may adopt different water-use strategies to adapt to limited soil water. In Jiuzhaigou Valley, a continuous decline in soil water after an initial recharge from the thawing of snow and frozen soil in early spring was observed, but its effects on the sap flow dynamics of co-occurring species are not well understood. To clarify the species-specific water-use strategy, variations in sap flow and environmental conditions were investigated for two co-occurring species (Betula albosinensis Burk. and Pinus tabuliaeformis Carr.) in a mixed forest during a transition from the wet to dry period in 2014. Sap flow was measured using Granier-type thermal dissipation probes, and the soil-water content was measured using time-domain reflectometry probes for a successive period. Our study showed that B. albosinensis maintained relatively high transpiration until late into the season regardless of soil moisture, while the transpiration of P. tabuliformis showed a continuous decrease in response to seasonal soil drying. Sap flow for both species exhibited a marked hysteresis in response to meteorological factors and it was conditioned by the soil-water status, especially in the afternoon. We found that P. tabuliformis was sensitive to soil-water conditions, while for B. albosinensis, the sap flow was not very sensitive to changes in soil-water conditions. These results indicate that B. albosinensis could manage the water consumption conservatively under both dry and wet conditions. These results may have implications for evaluating the species-specific water-use strategy and carrying out proper reforestation practices.http://www.mdpi.com/1999-4907/9/1/32sap flowwater-use strategymeteorological factorssoil-water availabilityproper reforestation practice
collection DOAJ
language English
format Article
sources DOAJ
author Chunhua Yan
Bei Wang
Yang Zhang
Xiaonan Zhang
Shinichi Takeuchi
Guo Yu Qiu
spellingShingle Chunhua Yan
Bei Wang
Yang Zhang
Xiaonan Zhang
Shinichi Takeuchi
Guo Yu Qiu
Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest
Forests
sap flow
water-use strategy
meteorological factors
soil-water availability
proper reforestation practice
author_facet Chunhua Yan
Bei Wang
Yang Zhang
Xiaonan Zhang
Shinichi Takeuchi
Guo Yu Qiu
author_sort Chunhua Yan
title Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest
title_short Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest
title_full Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest
title_fullStr Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest
title_full_unstemmed Responses of Sap Flow of Deciduous and Conifer Trees to Soil Drying in a Subalpine Forest
title_sort responses of sap flow of deciduous and conifer trees to soil drying in a subalpine forest
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2018-01-01
description Co-occurring species may adopt different water-use strategies to adapt to limited soil water. In Jiuzhaigou Valley, a continuous decline in soil water after an initial recharge from the thawing of snow and frozen soil in early spring was observed, but its effects on the sap flow dynamics of co-occurring species are not well understood. To clarify the species-specific water-use strategy, variations in sap flow and environmental conditions were investigated for two co-occurring species (Betula albosinensis Burk. and Pinus tabuliaeformis Carr.) in a mixed forest during a transition from the wet to dry period in 2014. Sap flow was measured using Granier-type thermal dissipation probes, and the soil-water content was measured using time-domain reflectometry probes for a successive period. Our study showed that B. albosinensis maintained relatively high transpiration until late into the season regardless of soil moisture, while the transpiration of P. tabuliformis showed a continuous decrease in response to seasonal soil drying. Sap flow for both species exhibited a marked hysteresis in response to meteorological factors and it was conditioned by the soil-water status, especially in the afternoon. We found that P. tabuliformis was sensitive to soil-water conditions, while for B. albosinensis, the sap flow was not very sensitive to changes in soil-water conditions. These results indicate that B. albosinensis could manage the water consumption conservatively under both dry and wet conditions. These results may have implications for evaluating the species-specific water-use strategy and carrying out proper reforestation practices.
topic sap flow
water-use strategy
meteorological factors
soil-water availability
proper reforestation practice
url http://www.mdpi.com/1999-4907/9/1/32
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AT beiwang responsesofsapflowofdeciduousandconifertreestosoildryinginasubalpineforest
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AT shinichitakeuchi responsesofsapflowofdeciduousandconifertreestosoildryinginasubalpineforest
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