Frequencies of Multivariate Air Masses Drive Tree Growth

Author:

Lee Cameron C.12ORCID,Dannenberg Matthew P.3ORCID

Affiliation:

1. Department of Geography ClimRISE Laboratory Kent State University Kent OH USA

2. Kent State Environmental Science and Design Research Institute Kent OH USA

3. Department of Geographical and Sustainability Sciences University of Iowa Iowa City IA USA

Abstract

AbstractMidlatitude surface meteorological conditions are embedded within—and affected by—synoptic‐scale systems, including the movement and persistence of air masses (AMs). Changes in AM frequencies (number of daily occurrences) over the past several decades could have large effects on ecosystems: each organism is exposed to the synergistic effects of the entire suite of atmospheric variables acting upon it—an inherently multivariate environment—which is best captured using AMs. Utilizing a global‐scale AM classification system and a large network of tree‐ring chronologies, we investigate how variation in AM frequency impacts tree growth at over 900 locations. We find that AM frequencies are well‐correlated with tree growth, especially in the 12‐month period from July in the year prior to growth through June in the year of growth. The most impactful AMs are Dry‐Warm and Humid‐Cool AMs, which exhibit average correlations of ρ = −0.4 and ρ = +0.4 with tree growth, respectively, for certain tree species, with correlations at some sites exceeding ρ =  ±0.8 in some seasons. Compared to empirical models based solely on temperature and precipitation, modeling using only AM frequencies proved superior at nearly 60% of the sites and for over 80% of the well‐sampled (n ≥ 10) species. These results should provide a foundation for using AMs to improve forecasts of tree growth, tree stress and wildfire potential. Long‐term reconstructions of AM frequencies back several centuries may also be feasible using tree‐ring data, which will help contextualize and temporally extend multivariate perspectives of climate change that utilize such air masses.

Funder

National Science Foundation

Publisher

American Geophysical Union (AGU)

Subject

Paleontology,Atmospheric Science,Soil Science,Water Science and Technology,Ecology,Aquatic Science,Forestry

Cited by 2 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Advances in paleoclimatology;Physical Geography;2024-02-12

2. The role of terrain-mediated hydroclimate in vegetation recovery after wildfire;Environmental Research Letters;2023-06-01

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