Litcius/Paper detail

Natural alkaloids from narrow-leaf and yellow lupins transfer to soil and soil solution in agricultural fields

Jawameer R. Hama, Bjarne W. Strobel

2020Environmental Sciences Europe51 citationsDOIOpen Access PDF

Abstract

Abstract Background Lupin is a promising legume crop, belongs to the Fabaceae (or Leguminosae ) family. Lupin production for traditional and functional foods or animal feed is limited, due to the content of toxic quinolizidine (QA)s and indole alkaloids (IA)s. These compounds may not only pose a risk to humans and animals through food consumption, but may also affect soil and aquatic ecosystems. Field experiments were conducted to study the alkaloids content in both narrow-leaved or blue ( L. angustifolius ) and yellow ( L. luteus ) lupin plant tissue during a full growing season and understand the environmental fate of alkaloids in soil and water. Suction cups were used to collect soil pore water (soil solution) at four depths: 10, 25, 50 and 70 cm. A full protocol for sample preparation and UPLC–MS/MS quantification of alkaloids in plant, soil and water was developed. Results During the field experiments the alkaloids in the plant tissues increased, at the harvest stage the content was highest with 21.4 and 24.6 mg/kg dry weight (dw) for blue and yellow lupin, respectively. In soil, alkaloids quantified during the growing season (max concentration was 1.3 × 10 2 µg/kg dw) and even detected after harvest (0.2 µg/kg dw). In soil pore water samples, alkaloids were not detected during summer, but the concentrations increased to 9.8 × 10 2 and 1.5 × 10 3 ng/L for blue and yellow, respectively, in September when autumn precipitation began. Conclusions The results show the amount of alkaloids transferred from plant tissue into soil and soil pore water estimated to be on average 0.016% and 0.005% in soil and soil pore water, respectively. Alkaloids leached from topsoil to subsoil layers; the concentrations decline with soil depth. This study demonstrates that alkaloids are mobile compounds in the soil environments, thus lupin production may affect soil or aquatic ecosystems, and reduce water quality.

Topics & Concepts

AgricultureEcotoxicologyEnvironmental scienceAgronomySoil waterAgroforestryBiologySoil scienceEcologyBotanical Research and ChemistryPlant and fungal interactionsAgricultural pest management studies