Development of sensitive and precise bio-indicative chemometric model for characterization of critically affected areas with airborne toxins

Balabanova, Biljana and Mitrev, Sasa and Boev, Blazo and Mihajlov, Ljupco and Ivanova, Violeta and Markova Ruzdik, Natalija and Boev, Ivan and Lazarova, Maja and Fan, Liping and Wang, Meicong and Yan, Minxiu and Liang, Yanqiu and Kong, Xiaoguang and Li, Chong (2020) Development of sensitive and precise bio-indicative chemometric model for characterization of critically affected areas with airborne toxins. [Project]

Preview

Text formular2020-proposal Balabanova - Fan final-2020.pdf Download (476kB) | Preview

Abstract

Environmental pollution in some parts of the Earth has create critical condition even for surviving of living organisms. Latest scientific data has improved long-term persistence of hazard toxins in varios parts of the environment. Furthermore, air pollution has created a lot of problems in the developed and developing countries. To avoid or reduce these problems, constant monitoring of air should be ensured.
The conventional techniques is costly because it requires a lot of money and time consuming. Most air pollution analysis requires equipment which is costly, not readily available and time-consuming. Biomonitoring has been the alternative method. Bryophites and various plants are biomonitors available to entrap air pollutants. Latest research in Republic of North Macedonia and China indicate long-term continuis problems with persistent airborne pollutants. Therefore, both of these countries are facing with the chalege of implementing sustainable spatial resolution of monitoring model.
The aim of this project is to improve one of the ways of monitoring air pollution – Moss bag technique (using bryophytes from North Macedonia and China, and improving interchangeable use). Main project goal will be creation of data base for pollution index using the interchange moss transplants R. North Macedonia and R. China (selected representative moss transplants will be transfer from North Macedonia to China and opposite, furthermore the species will be tested and examine for their hazards accumulation ability. Bryophytes will be tested and characterized for use as “bryo-filters” or green-air -filters. Plants transplants will be tested in both counties interchangeable.

Item Type:	Project
Subjects:	Natural sciences > Chemical sciences Natural sciences > Earth and related environmental sciences
Divisions:	Faculty of Agriculture
Depositing User:	Biljana Balabanova
Date Deposited:	29 Jan 2021 09:05
Last Modified:	29 Jan 2021 09:05
URI:	https://eprints.ugd.edu.mk/id/eprint/27317

Actions (login required)

View Item