Ecotoxicity effects triggered in aquatic organisms by invasive Acer negundo and native Alnus glutinosa leaf leachates obtained in the process of aerobic decomposition

The replacement of autochthonous tree species by invasive ones in coastal zones of freshwater bodies induces additional alteration of hydrochemical and microbiological characteristics due to decomposition of fallen leaves of non-indigenous species, which can lead to ecotoxic response of the littoral...

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Bibliographic Details
Published in:The Science of the total environment 2014-10, Vol.496, p.35-44
Main Authors: Manusadžianas, Levonas, Darginavičienė, Jūratė, Gylytė, Brigita, Jurkonienė, Sigita, Krevš, Alina, Kučinskienė, Alė, Mačkinaitė, Rimutė, Pakalnis, Romas, Sadauskas, Kazys, Sendžikaitė, Jūratė, Vitkus, Rimantas
Format: Article
Language:English
Subjects:
Acer - chemistry
Acer negundo
Aerobiosis
Alnus - chemistry
Alnus glutinosa
Aquatic Organisms - drug effects
Bacteria
Biodegradation
Biodegradation, Environmental
Decomposition
Enrichment
H+-ATPase biomarker
Introduced Species
Leaf leachate toxicity
Leaves
Lithuania
Membranes
Nitellopsis obtusa
Plant Extracts - toxicity
Plant Leaves - chemistry
Plant Leaves - toxicity
Toxic
Toxicity Tests
Toxicology
Trees
Water Pollutants, Chemical - toxicity
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Summary:The replacement of autochthonous tree species by invasive ones in coastal zones of freshwater bodies induces additional alteration of hydrochemical and microbiological characteristics due to decomposition of fallen leaves of non-indigenous species, which can lead to ecotoxic response of the littoral biota. Leaves of invasive to Lithuania boxelder maple (Acer negundo) and autochthonous black alder (Alnus glutinosa) lost more than half of biomass and released stable amount of DOC (60–70mg/L) throughout 90-day mesocosm experiment under aerobic conditions. This, along with the relatively small BOD7 values detected after some variation within the first month confirms effective biodegradation by fungi and bacteria. The ambient water was more enriched with different forms of N and P by decomposing boxelder maple than by alder leaves. During the first month, both leachates were more toxic to charophyte (Nitellopsis obtusa) at mortality and membrane depolarization levels, while later to two crustacean species. Biomarker response, H+-ATPase activity in membrane preparations from N. obtusa, was stronger for A. negundo. Generally, boxelder maple leaf leachates were more toxic to tested hydrobionts and this coincides with previous study on leaves of the same pair of tree species conducted under microaerobic conditions (Krevš et al., 2013).
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2014.07.005