Al-Khatib, Issam A.; Anayah, Fathi M.; Al-Sari, Majed I.; Almadbooh, Suha; Salahat, Jumana I.; Jararaa, Baraa Y A:
Assessing Physiochemical Characteristics of Agricultural Waste and Ready Compost at Wadi Al-Far'a Watershed of Palestine
In: Journal of environmental and public health (2023-01-30), Article 6147506
2023-01-30Essay / Article in JournalOA Gold
Faculty of Spatial Development and Infrastructure Systems » Institute for Technology and Resources Management in the Tropics and Subtropics
Title in English:
Assessing Physiochemical Characteristics of Agricultural Waste and Ready Compost at Wadi Al-Far'a Watershed of Palestine
Author:
Al-Khatib, Issam A.
SCOPUS
6701855106
;
Anayah, Fathi M.
SCOPUS
26029728300
;
Al-Sari, Majed I.
SCOPUS
55014544300
;
Almadbooh, SuhaTH Köln
DHSB-ID
THK0002725
SCOPUS
57207581601
Other
person connected with TH Köln
;
Salahat, Jumana I.
SCOPUS
57207571773
;
Jararaa, Baraa Y A
SCOPUS
57207574652
Date published:
2023-01-30
„Publication Channel“:
OA Gold
PubMed ID
Scopus ID
Language of text:
English
Type of resource:
Text
Access Rights:
open access
Practice Partner:
No
Category:
Research
Part of statistic:
Part of statistic

Abstract in English:

The Wadi Al-Far'a Watershed (WFW) is one of the most important agricultural lands in Palestine where considerable amounts of organic wastes are generated. Yet, mismanagement of agricultural waste, including random disposal and/or burning, is a prevalent practice in the WFW. Such a practice might result in greenhouse gas emissions and leachate penetration into underlying soil and groundwater. To encourage compost production in the WFW as an efficient way for organic agricultural waste treatment and emission reduction, this study aims at evaluating the quality of both raw organic agricultural waste and ready compost, locally produced or imported. The evaluation considers the physiochemical characteristics as well as the heavy metal contents. The analysis of 17 samples of raw organic agricultural waste showed a good potential for compost production due to the high content of organic matter and other nutrients such as nitrogen and phosphorus. The analysis of 15 ready compost samples, however, showed that compost quality is relatively low due to the high electrical conductivity and low moisture content measurements as well as the high levels of sodium, chloride, and potassium. Furthermore, heavy metal contents of both raw organic agricultural waste and ready compost samples are less than the limits specified by the Palestinian and international standards. Therefore, local farmers can safely use raw organic agricultural waste generated in the WFW for compost production. Composting will not only enhance soil reclamation and crop production but also protect human health and the environment and promote sustainable economic development.