Evaluation of the anthropogenic black carbon emissions and deposition on Norway spruce and silver birch foliage in the Baltic region

Steigvilė Byčenkienė; Daria Pashneva; Ieva Uogintė; Julija Pauraitė; Agnė Minderytė; Lina Davulienė; Kristina Plauškaitė; Martynas Skapas; Vadimas Dudoitis; Gill Touqeer; Jelena Andriejauskiene; Valda Araminienė; Eugenija Farida Dzenajavičienė; Pierre Sicard; Valda Gudynaitė-Franckevičienė; Iveta Varnagirytė-Kabašinskienė; Nerijus Pedišius; Egidijus Lemanas; Tomas Vonžodas

doi:10.1016/j.envres.2021.112218

Evaluation of the anthropogenic black carbon emissions and deposition on Norway spruce and silver birch foliage in the Baltic region

Environ Res. 2022 May 1:207:112218. doi: 10.1016/j.envres.2021.112218. Epub 2021 Oct 13.

Authors

Steigvilė Byčenkienė¹, Daria Pashneva¹, Ieva Uogintė¹, Julija Pauraitė¹, Agnė Minderytė¹, Lina Davulienė¹, Kristina Plauškaitė¹, Martynas Skapas¹, Vadimas Dudoitis¹, Gill Touqeer¹, Jelena Andriejauskiene¹, Valda Araminienė², Eugenija Farida Dzenajavičienė³, Pierre Sicard⁴, Valda Gudynaitė-Franckevičienė⁵, Iveta Varnagirytė-Kabašinskienė⁵, Nerijus Pedišius³, Egidijus Lemanas³, Tomas Vonžodas³

Affiliations

¹ SRI Center for Physical Sciences and Technology (FTMC), Saulėtekio ave. 3, Vilnius, Lithuania.
² Lithuanian Research Centre for Agriculture and Forestry, Instituto av. 1, Akademija, Kėdainiai distr., Lithuania. Electronic address: valda.araminiene@lammc.lt.
³ Lithuanian Energy Institute, Breslaujos str. 3, Kaunas, Lithuania.
⁴ ARGANS, 260 route du Pin Montard, Biot, France.
⁵ Lithuanian Research Centre for Agriculture and Forestry, Instituto av. 1, Akademija, Kėdainiai distr., Lithuania.

PMID: 34655608
DOI: 10.1016/j.envres.2021.112218

Abstract

This study investigates potential influence of urban trees on black carbon (BC) removal by Norway spruce and silver birch along with the BC formation, mass concentration in air, and source apportionment. The main sources of BC in urban areas are transport, household and industry. BC concentrations monitored in urban background station in Vilnius (Lithuania) showed that biomass burning was a significant contributor to BC emissions even during warm period of the year. Therefore, BC emission levels were determined for the most common biomass fuels (mixed wood pellets, oak, ash, birch and spruce firewood) and two types of agro-biomass (triticale and rapeseed straw pellets) burned in modern and old heating systems. The highest emissions were obtained for biomass fuels especially birch firewood. BC aerosol particles produced by the condensation mechanism during the combustion processes were found in all samples taken from the leaf surface. The short-term effect of BC exposure on photosynthetic pigments (chlorophyll a and b; and carotenoids) in the foliage of one-year-old Norway spruce and silver birch seedlings was evaluated by the experiment carried out in the phytotron greenhouse. The seedlings showed different short-term responses to BC exposure. All treatments applied in the phytotron greenhouse resulted in lower chlorophyll content in spruce foliage compared to natural conditions but not differed for birch seedlings. However, the exposure of BC particles on the spruce and birch seedlings in the phytotron increased the content of photosynthetic pigments compared to the control seedlings in the phytotron. Overall, urban trees can help improve air quality by reducing BC levels through dry deposition on tree foliage, and needle-like trees are more efficient than broad-leaved trees in capturing BC. Nevertheless, a further study could assess the longer-term effects of BC particles on tree biochemical and chemical reactions.

Keywords: Biomass fuel burning; Black carbon; Phytotron greenhouse; Tree response; Urban trees.

MeSH terms

Air Pollutants* / analysis
Betula
Carbon / analysis
Chlorophyll A
Picea*
Soot

Substances

Air Pollutants
Soot
Carbon
Chlorophyll A