Study of tewenty-six genotypes of cultivated barley(Hodeum Vulgare L.) for salinity tolerance by measurement Na+ and K+ Cations
غلامعباس محمدی
1
(
گروه زراعت، واحد جیرفت، دانشگاه آزاد اسلامی، جیرفت، ایران
)
محمدرضا بهرامجردی
2
(
گروه زراعت، واحد جیرفت، دانشگاه آزاد اسلامی، جیرفت، ایران
)
کلید واژه: Grain yield, Salinity, barley, Plant traits,
چکیده مقاله :
Salinity stress is one of the most important abiotic stresses that affects the cultivation of agricultural plants in large areas of the country every year.Twenty-six genotypes of cultivated barley collected from Iran were compared for salt tolerance. Plants were grown in 2Kg pots and subjected to three salinity(NaCl) treatmentsand (1.2 ,8.9 and 16.7ds/m) in a greenhouse at jiroft. The expriment was done in a factorial with complete randomized design and three replications.During vegetative growth shoot Na+ ,K+ contents were measured for all genotypes.Plant traits including the plant height ,length of spikes ,number of spikes per plant ,fresh weight and dry matter and grain yield per plant were also measured.There was a very wide variation in salt tolerance of the genotypes with regard to Na+ and K+ contents.In general tolerant genotypes with better agronomic performance contained lower Na and a higher amount of K to non-tolerant ones and these two parameters were significantly and negatively correlated(r=-0.71,p<0.01).
چکیده انگلیسی :
تنش شوری یکی از مهم ترین تنشهای غیرزیستی است که هر ساله بر کشت گیاهان کشاورزی در مناطق وسیعی از کشور تأثیر میگذارد. 26 ژنوتیپ جو کشت شده از ایران از نظر تحمل به شوری مقایسه شد. گیاهان در گلدان های 2 کیلوگرمی رشد کردند و تحت سه تیمار شوری (NaCl) و (1.2، 8.9 و 16.7ds/m) در گل خانه جیرفت قرار گرفتند. آزمایش به صورت فاکتوریل در قالب طرح کاملاً تصادفی و در سه تکرار انجام شد. در طول رشد رویشی اندام هوایی، محتوای +Na+ ، K برای تمامی ژنوتیپ ها اندازه گیری شد. صفات گیاهی شامل ارتفاع بوته، طول سنبله، تعداد سنبله در بوته، وزن تر و خشک ماده و عمل کرد دانه در بوته نیز اندازه گیری شد. تحمل به شوری ژنوتیپ ها با توجه به محتوای +Na و +K دارای تنوع بسیار گسترده ای بود. متغیرهای متحمل و این دو پارامتر همبستگی معنیدار و منفی داشتند (r=-0.71,p<0.01).
Study of tewenty-six genotypes of cultivated barley(Hodeum Vulgare L.) for salinity tolerance by measurement Na+ and K+ Cations
Abstract
Twenty-six genotypes of cultivated barley collected from Iran were compared for salt tolerance. Plants were grown in 2Kg pots and subjected to three salinity(NaCl) treatmentsand (1.2 ,8.9 and 16.7ds/m) in a greenhouse at jiroft. The expriment was done in a factorial with complete randomized design and three replications.During vegetative growth shoot Na+ ,K+ contents were measured for all genotypes.Plant traits including the plant height ,length of spikes ,number of spikes per plant ,fresh weight and dry matter and grain yield per plant were also measured.There was a very wide variation in salt tolerance of the genotypes with regard to Na+ and K+ contents.In general tolerant genotypes with better agronomic performance contained lower Na and a higher amount of K to non-tolerant ones and these two parameters were significantly and negatively correlated(r=-0.71,p<0.01).
Keywords: Barley, Salinity, Plant traits, Grain yield
Introduction
Salinity of agricultural lands and irrigation water is the most limiting factor for plant growth in many dry parts of the word.Twenty five million ha of agricultural land are saline in Iran and this is increasing due to poor irrigation management (FAOSTAT,2014).Barley is a relatively tolerant crop to soil salinity and genetic variations exist among genotypes of cultivated barley(Gray & Stewart,1984). Under water deficit conditions plants may use different mechanisms to alleviate the stress.For example , Kamboje et al.(Kamboj et al.,2015 ) compared different barley genotypes under salinity stress and found that the pathway of abscisic acid is among the most important physiological mechanisms determining barley tolerance under stress. Barley response under water deficit conditions is correlated with changes in plant physiological (Mezer et al,2014) and morphological (Haling et al., 2014) parameters as different barley genotypes indicate significant differences.Salinity stress is made of osmosic and ionic effects that both can affect on plant metabolism.Stem growth usually more that root growth is affected.(Greenway & Munns, 1980).Mafton and Sepaskhah in studing on wheat cultivars observed that more tolerance salinity in Tabasi cultivar was because fewer aggregation in shoots.(Mafton &Sepaskhah,1989 ).
There is a general relationship between low Na accumulation and salt tolerance in barley. The amount of K may be correlated with tolerance to salinity (Forster et al.,1994).Barley(Hordeum vulgare L.) is an importmant crop plant similar to wheat and rice, which is planted under a wide range of environments ,worldwide ,and as a result can be used as an excellent model for the prediction of crop response to climate change(Jamshidi & Javanmard, 2018). Barley is a great source of food and drink for human, and it is also used for feeding livestock (FAOSTAT,2014). Here we used the shoot Na+ and K+ content to screen and different 26 genotypes of cultivated from different parts of Iran. The study was aimed at investigating the genetic variation in salt tolerance and to find the suitable selection for differentiation of genetic variation for the trait.
Materials and methods
Table1:number and name of different genotypes. | |
The name of genotyp | Row(number of genotype) |
Asse/karoon | 1 |
Torsh/9cr-279-0711 | 2 |
Star/Jerusa/em/Rihane-03 | 3 |
Zarjow//Rihane/L.640 | 4 |
73M47 | 5 |
Kavir/Badia | 6 |
Karoon/Kavir | 7 |
80-5010/Mona | 8 |
Zarjow/Hiproly | 9 |
Kavir/Mch-M4 | 10 |
Zarjow/Bit//CM67 | 11 |
Chat//Roho/Alger | 12 |
Lignees527/NK1272 | 13 |
P12315/Maf/02//Cossack/3/Lignee527 | 14 |
Rihane s/Deiralla106 | 15 |
C1717-9/Deiralla106 | 16 |
Black hole with two row | 17 |
Black hole with six rows | 18 |
Six rows barley | 19 |
Hymalia barley | 20 |
Victoria barley | 21 |
Probost dowarf | 22 |
Rihan | 23 |
Walfajre | 24 |
Afzal | 25 |
Walfajre//Apm/Hc | 26 |
Tewenty-six barley genotypes(Hordeum Vulgare L.) collected from different area of Iran were tested for shoot Na and K contents(Table1) .
Before planting the seeds of all genotypes were surface sterilized by 2.5% sodium hypochlorite solution for 15 min and rinsed 3 times with distilled water.
All genotypes were planted in a greenhouse in pots containing 2kg of soil.
Experimental Desine And Treatments
A factorial experiment with 2 factors including genotypes and salt treatments(3levels) was conducted in a completely randomized design with 3 replications.Three levels of salinity were 0 ,2500 and 5000 mg of NaCl in oneKg soil.Five germinated seed of each genotype were planted in a 2 kg-pot containing 2kg of soil (sandy-clay-loam :31%clay ,22% silt and 47%sand ,pH=7.4)with moisture saturation of 58%,field capacity of 27% and electric conductivity orEC=0.49ds/m).
The final salinity levels after irrigation were 1.2(control) ,8.9 and 16.7 ds/m.The pots were put in plastic bags to prevent excess water drainage and hence to control salinity level of the pots.Salt(NaCl) was applied by making a saline stock solution of 125 gNaCl.The salt treatments were applied at 4 stages, at one-week intervals.The first application was at 2-leaf stage.For the first level of salinity at each stage ,10 ml of the stock solution and for the second level of salinity ,20 ml of the stock solution were applied into each pot and considering field capacity of the soil ,water was added in adequate amounts while the pots were placed on a balance.
Sampling and Measurements
For measuring Na and K ,4 weeks after the last stages of salt treatment ,shoots of 3 plants of each pot were harvested and oven-dried at a 65C for 48 hr, and then milled to a fine powder.
A 0.5gr sample of milled shoot was put in a
crucible.The samples were then ashed by
placing in a furnace at 500c for 6 hr.5ml HCL(2N) was added into each crucible and mixed thoroughly.The mixture made up to 50ml with boiling distilled water and filtered in a 50 ml volumetric flask.Na and K concentrations were measured using flame photometry.
Plant morpho-physiological measurements
Individual plant fresh weights(FW) were measured four weeks after salt treatments.At harvest other traits including the dried plant weight(DW) ,plant grain yield(GY) ,plant
height(PH) ,spike length of the main tiller ,number of spikes per plant and number of tillers per plant were measured.
Table 2- very wide variation between different genotypes | |||
Genotype number | Na content mg/gr | Genotype number | Na content mg/gr |
5 | 20.32c-p | 25 | 12.32vwx |
13 | 20.5c-o | 6 | 13.3u-x |
10 | 20.8c-o | 21 | 14.79r-x |
14 | 20.8c-n | 24 | 15.9m-v |
19 | 21.00c-m | 9 | 16.86l-u |
2 | 21.7c-m | 17 | 17.03k-u |
11 | 21.7c-m | 8 | 17.7j-u |
26 | 21.85b-j | 18 | 18.6h-t |
12 | 24.0a-f | 15 | 19.5e-r |
7 | 24.2a-e | 16 | 19.6e-r |
4 | 24.3a-d | 22 | 19.85c-q |
1 | 24.7a-c | 20 | 20.3c-q |
Results and Discussion
In general increasing salinity level from 1.2 to 16.7 ds/m caused a significant increase in Na+ content in all genotypes (Fig1).
Fig1- Na+ content according to average of 26 genotypes at 3 levels of salinity(s1=1.2 ,s2=8.9 and s3=16.7 ds/m). |
There was a very wide variation between different genotypes with regard to shoot Na content.(Table2). Genotypes collected from different and same areas showed high variation for Na+ content. |
Afzal genotype(cultivar number 25) which is considered a salt tolerant cultivare has a lowest Na content (12.32) and Reyhan(cultivar number 23) which is not a tolerant cultivar for salinity has a high content Na(25.2).ranked among highest Na content and hence the most sensitive genotypes.
Fig2- Na+ content at s2=8.9 in 26 genotypes.
Table 3-Order of genotypes according to K content | |||
Genotype number | Potassium content mg/gr | Genotype number | Potassium content mg/gr |
11 | 36.63f-m | 25 | 55.67a |
16 | 36.43f-m | 10 | 45.43b |
9 | 33.34j-r | 19 | 42.22b-e |
8 | 33.33j-r | 24 | 41.89b-f |
18 | 33.31j-r | 13 | 41.86b-f |
4 | 32.47l-r | 26 | 41.17b-h |
5 | 30.78n-t | 17 | 40.89b-h |
2 | 30.63o-u | 14 | 39.63c-i |
1 | 29.51p-v | 12 | 38.68c-j |
15 | 29.01q-v | 21 | 37.76c-m |
23 | 26.57t-w | 7 | 37.64d-m |
20 | 25.63uvw | 3 | 37.17e-m |
6 | 22.48w | 22 | 36.64f-m |
Salinity Effects on Grain Yield and Yield components of genotypes Salt stress had adverse effects on grain yield and yield components of all genotypes.Correlation coefficients between different traits of genotypes are in Tabel 4. These adverse effects were drastic in various cultivated genotypes.There were significant differences among genotypes for grain yield per plant and a significant negative correlation was observed between Na content and grain yield per plant.(Table 4).
|
Tabel 4- Correlation coefficients between different traits of genotypes. | |||||
K | Na | Dry weight | Plant height | Seed yield |
|
1 | -0.71** | 0.12ns | 0.09ns | 0.12ns | K |
| 1 | -0.94** | -0.96** | -0.93* | Na |
|
| 1 | 0.94** | 0.99** | Dry weight |
|
|
| 1 | 0.91* | Plant height |
|
|
|
| 1 | Seed yield |
** ,* Significant at 1 and 5% probability levels respectively.
References
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