4.7 Article

Net ecosystem productivity and its environmental controls in a mature Scots pine stand in north-western Poland

AGRICULTURAL AND FOREST METEOROLOGY (2016)

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Journal

AGRICULTURAL AND FOREST METEOROLOGY
Volume 228, Issue -, Pages 60-72

Publisher

ELSEVIER SCIENCE BV
DOI: 10.1016/j.agrformet.2016.05.022

Keywords

Scots pine; Eddy covariance; Environmental controls; Net ecosystem productivity

Categories

Agronomy Forestry Meteorology & Atmospheric Sciences

Funding

  1. States Forest National Forest Holding in Poland (project LAS) [OR-2717/27/11]

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Although there have been many studies of the net ecosystem productivity (NEP) of different types of forests around the world, the CO2 dynamics in afforested pine stands of Central Europe are poorly understood. To fill this gap, continuous eddy-covariance (EC) measurements of net ecosystem exchange (NEE) were made from January 2008 to December 2013 in a 62-year-old temperate afforested Scots pine stand near Tuczno. The site is located in north-western Poland, where forests account for almost 30% of the land area and are dominated by Scots pine. Weather conditions during this 5-year period were mostly warm and wet. In all 5 years, air temperature (T-a) was higher than the 30-year (1983-2013) mean and by 3.3 degrees C during winter 2008, while pr.ecipitation (P) was noticeably higher only in summer months. The high productivity of the forest, which sequestered 118 Mg of CO2 per ha over the 5-year period, is likely because it was planted on fertile meadowland. Annual net ecosystem productivity (NEP = -NEE) ranged from 494 g C m(-2) in 2012 to 765 g C m(-2) in 2009, with an average of 645 gC m(-2). The interannual variation in NEP was attributed more to the interannual variation in gross ecosystem photosynthesis (GEP) than to ecosystem respiration (R). Moreover, both annual NEP and GEP significantly decreased over the 5 years. This was the result of increasingly drier springs and wetter summers as time progressed during the 5-year period, as compared to the 30-year averages, which resulted in a gradual reduction in the growing season NEP and consequently the annual values. Seasonal values of NEP were highly correlated with T-a, photosynthetic photon flux density and vapor pressure deficit. The sensitivity of NEP to T-a was largely due to the much higher sensitivity of GEP to T-a compared to that of R. Although the interannual variability in NEP for separate seasons could not be explained using seasonal values of individual meteorological variables, a hygrothermal index, defined as P/10T(a), explained a large proportion of the interannual variability in NEP in spring and summer. (C) 2016 Elsevier B.V. All rights reserved.

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Tracking photosynthetic phenology using spectral indices at the leaf and canopy scales in temperate evergreen and deciduous trees

Jiaqi Guo, Xiaohong Liu, Wensen Ge, Liangju Zhao, Wenjie Fan, Xinyu Zhang, Qiangqiang Lu, Xiaoyu Xing, Zihan Zhou

Summary: Vegetation photosynthetic phenology is an important indicator for understanding the impacts of climate change on terrestrial carbon cycle. This study evaluated and compared the abilities of different spectral indices to model photosynthetic phenology, and found that NIRv and PRI are effective proxies for monitoring photosynthetic phenology.

AGRICULTURAL AND FOREST METEOROLOGY (2024)

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Article Agronomy

Impacts of heat and drought on the dynamics of water fluxes in a temperate deciduous forest from 2012 to 2020

Arango Ruda Elizabeth, M. Altaf Arain

Summary: Temperate deciduous forests have significant impacts on regional and global water cycles. This study examined the effects of climate change and extreme weather events on the water use and evapotranspiration of a temperate deciduous forest in eastern North America. The results showed that photosynthetically active radiation and air temperature were the primary drivers of evapotranspiration, while vapor pressure deficit regulated water use efficiency. The study also found a changing trend in water use efficiency over the years, influenced by extreme weather conditions.

AGRICULTURAL AND FOREST METEOROLOGY (2024)

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