Evaluation of Atrichum
undulatum as an effective indicator of lead pollution in soil
N. Yang1,2,
M. Dong3*, Z. Xu4*, X. Zhou1, Z. Xu3
and W. Ku3
1Key Laboratory of
Key Technologies of Digital Urban-Rural Spatial Planning of Hunan Province,
College of Architecture & Urban Planning, Hunan City University, Yiyang,
Hunan-413 000, China
2Hunan Urban and
Rural Ecological Planning and Restoration Engineering Research Center, Hunan
City University, Yiyang, Hunan-413 000, China
3College of
Materials and Chemical Engineering, Hunan City University, Yiyang Hunan-413
000, China
4Science and
Technology Service Center of Hunan Province, Changsha, Hunan- 410 013, China
*Corresponding Author Email : dongmeng1001@163.com
|
|
Abstract
Aim:
The aim of this study was to evaluate the sensitivity of Atrichum
undulatum to soil Pb contamination and check its affectivity as an indicator
of Pb pollution indicator.
Methodology: Soil and plant samples were collected and
characterized. Plants were grown in different levels of Pb contaminated soil
(35, 70,140 and 280 mg kg-1, respectively). After 35 days, the
plant samples were cut and ground to determine physiological and biochemical
parameters.
Results:
Soil available Pb accounted for approximately 15–24% of total Pb, and the
ratio of available Pb decreased with increase in treatment concentration. All
the above mentioned parameters were closely related to soil Pb stress,
especially when soil Pb concentration was higher than 140 mg kg-1.
A. undulatum had a low tolerance to Pb and distinct responses to soil
Pb pollution, with visible symptoms such as damaged sporophytes and
gametophytes. When soil Pb concentration was in low concentration (70 and 140
mg kg-1), the leaves turned yellow and brown. When soil Pb
concentration increased to 280 mg kg-1, the seta softened and
kinked and eventually, the plants withered and died.
Interpretation: Changes in physiological and biochemical
parameters of tested plants such as chlorophyll, soluble protein and MDA
content were related to soil Pb stress, especially to soil bioavailable Pb
content, and corresponded well to changes in soil Pb pollution level. The
results suggest that A. undulatum can be used as indicators to monitor and
evaluate Pb pollution in soil.
Key
words:
Atrichum undulatum, Biomonitoring, Pb-contaminated soil, Stress
response
|
|
Copyright
© 2021 Triveni Enterprises. All rights reserved. No part of the
Journal can be reproduced in any form without prior
permission. Responsibility regarding the authenticity of the data, and
the acceptability of the conclusions enforced or derived, rest completely
with the author(s).
|
|