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Title: Ecosystem warming increases sap flow rates of northern red oak trees

Journal Article · · Ecosphere
DOI:https://doi.org/10.1002/ecs2.1221· OSTI ID:1248412
 [1];  [1];  [2];  [3];  [4];
  1. Department of Biology Boston University Boston Massachusetts 02215 USA
  2. Department of Earth and Environment Boston University Boston Massachusetts 02215 USA
  3. Harvard University Harvard Forest Petersham Massachusetts 01366 USA
  4. Department of Biological Sciences Bowling Green State University Bowling Green Ohio 43403 USA
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Abstract Over the next century, air temperature increases up to 5°C are projected for the northeastern United States. As evapotranspiration strongly influences water loss from terrestrial ecosystems, the ecophysiological response of trees to warming will have important consequences for forest water budgets. We measured growing season sap flow rates in mature northern red oak ( Quercus rubra L.) trees in a combined air (up to 5.5°C above ambient) and soil (up to 1.85°C above ambient at 6‐cm depth) warming experiment at Harvard Forest, Massachusetts, United States. Through principal components analysis, we found air and soil temperatures explained the largest amount of variance in environmental variables associated with rates of sap flow, with relative humidity, photosynthetically active radiation and vapor pressure deficit having significant, but smaller, effects. On average, each 1°C increase in temperature increased sap flow rates by approximately 1100 kg H 2 O m −2 sapwood area day −1 throughout the growing season and by 1200 kg H 2 O m −2 sapwood area day −1 during the early growing season. Reductions in the number of cold winter days correlated positively with increased sap flow during the early growing season (a decrease in 100 heating‐degree days was associated with a sapflow increase in approximately 5 kg H 2 O m −2 sapwood area day −1 ). Soil moisture declined with increased treatment temperatures, and each soil moisture percentage decrease resulted in a decrease in sap flow of approximately 360 kg H 2 O m −2 sapwood area day −1 . At night, soil moisture correlated positively with sap flow. These results demonstrate that warmer air and soil temperatures in winter and throughout the growing season lead to increased sap flow rates, which could affect forest water budgets throughout the year.

Research Organization:
North Carolina State University, Raleigh, NC (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
DE‐FG02‐08ER64510; FG02-08ER64510
OSTI ID:
1248412
Alternate ID(s):
OSTI ID: 1248413; OSTI ID: 1361681
Journal Information:
Ecosphere, Journal Name: Ecosphere Vol. 7 Journal Issue: 3; ISSN 2150-8925
Publisher:
Wiley Blackwell (John Wiley & Sons)Copyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 16 works
Citation information provided by
Web of Science

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Related Subjects

54 ENVIRONMENTAL SCIENCES
climate change
mixed temperate forest
Quercus rubra
transpiration
warming experiment
water uptake