Possible Utilization of Halophytes as Alternative Crops in Saline Agroecosystems
سال
: 2009
چکیده: High salinity causes water deficit, ion toxicity, and nutrient deficiency leading to molecular
damage, growth arrest of plants. Production of halophytes using saline waters and soils is one of
the most sustainable ways of conservation desert ecosystems. Therefore, in order to study the
possibility of growing Kochia (Kochia scoparia) as a forage crop in arid environments reach in
saline underground water, a series of experiments were performed. Germination tests were
evaluated in germinators under different temperatures (10-40 oC, with 5 oC intervals), and
salinity levels (0-20 dS/m, 5 dS/m intervals). Growth and development of kochia tested in the
field in three levels of saline irrigation water (1.5, 8.6 and 28.2 dS/m). The biological yield, leaf
and stem dry weight, plant height, number of branches, oil yield, protein percentage, protein
yield were measured. The results showed that kochia can adjust its germination in a wide range
of temperature, from 3.4 (Tbase) to 49.7 oC (Tmax) and optimum germination temperature of 24
oC. Salinity negatively influenced the majority of plant\\\\\\'s morphological and physiological
indices, yet the dry matter accumulation in the highest salinity level reached 60% of plants in
lower saline levels, and even the moderate salinity caused a little stimulus in plant\\\\\\'s growth and
yield performance. Results showed that the highest biological and seed yield obtained at 30 and
20plant m-2 respectively. In Conclusion, the Kochia’s high production capacity in the presence
of salinity and other desert stresses such as high temperature and drought make this plant
capable as a forage crop in harsh environmental conditions.
damage, growth arrest of plants. Production of halophytes using saline waters and soils is one of
the most sustainable ways of conservation desert ecosystems. Therefore, in order to study the
possibility of growing Kochia (Kochia scoparia) as a forage crop in arid environments reach in
saline underground water, a series of experiments were performed. Germination tests were
evaluated in germinators under different temperatures (10-40 oC, with 5 oC intervals), and
salinity levels (0-20 dS/m, 5 dS/m intervals). Growth and development of kochia tested in the
field in three levels of saline irrigation water (1.5, 8.6 and 28.2 dS/m). The biological yield, leaf
and stem dry weight, plant height, number of branches, oil yield, protein percentage, protein
yield were measured. The results showed that kochia can adjust its germination in a wide range
of temperature, from 3.4 (Tbase) to 49.7 oC (Tmax) and optimum germination temperature of 24
oC. Salinity negatively influenced the majority of plant\\\\\\'s morphological and physiological
indices, yet the dry matter accumulation in the highest salinity level reached 60% of plants in
lower saline levels, and even the moderate salinity caused a little stimulus in plant\\\\\\'s growth and
yield performance. Results showed that the highest biological and seed yield obtained at 30 and
20plant m-2 respectively. In Conclusion, the Kochia’s high production capacity in the presence
of salinity and other desert stresses such as high temperature and drought make this plant
capable as a forage crop in harsh environmental conditions.
کلیدواژه(گان): Possible Utilization of Halophytes as Alternative Crops in Saline Agroecosystems
کالکشن
:
-
آمار بازدید
Possible Utilization of Halophytes as Alternative Crops in Saline Agroecosystems
Show full item record
contributor author | محمد کافی | en |
contributor author | Mohammad Kafi | fa |
date accessioned | 2020-06-06T14:00:50Z | |
date available | 2020-06-06T14:00:50Z | |
date copyright | 2/8/2009 | |
date issued | 2009 | |
identifier uri | http://libsearch.um.ac.ir:80/fum/handle/fum/3378834?locale-attribute=fa | |
description abstract | High salinity causes water deficit, ion toxicity, and nutrient deficiency leading to molecular damage, growth arrest of plants. Production of halophytes using saline waters and soils is one of the most sustainable ways of conservation desert ecosystems. Therefore, in order to study the possibility of growing Kochia (Kochia scoparia) as a forage crop in arid environments reach in saline underground water, a series of experiments were performed. Germination tests were evaluated in germinators under different temperatures (10-40 oC, with 5 oC intervals), and salinity levels (0-20 dS/m, 5 dS/m intervals). Growth and development of kochia tested in the field in three levels of saline irrigation water (1.5, 8.6 and 28.2 dS/m). The biological yield, leaf and stem dry weight, plant height, number of branches, oil yield, protein percentage, protein yield were measured. The results showed that kochia can adjust its germination in a wide range of temperature, from 3.4 (Tbase) to 49.7 oC (Tmax) and optimum germination temperature of 24 oC. Salinity negatively influenced the majority of plant\\\\\\'s morphological and physiological indices, yet the dry matter accumulation in the highest salinity level reached 60% of plants in lower saline levels, and even the moderate salinity caused a little stimulus in plant\\\\\\'s growth and yield performance. Results showed that the highest biological and seed yield obtained at 30 and 20plant m-2 respectively. In Conclusion, the Kochia’s high production capacity in the presence of salinity and other desert stresses such as high temperature and drought make this plant capable as a forage crop in harsh environmental conditions. | en |
language | English | |
title | Possible Utilization of Halophytes as Alternative Crops in Saline Agroecosystems | en |
type | Conference Paper | |
contenttype | External Fulltext | |
subject keywords | Possible Utilization of Halophytes as Alternative Crops in Saline Agroecosystems | en |
identifier link | https://profdoc.um.ac.ir/paper-abstract-1020514.html | |
conference title | International Conference Plant Abiotic Stress Tolerance | en |
conference location | وین | fa |
identifier articleid | 1020514 |