Pepper and onion yield estimate parameters were conducted during off-season of 2011 using irrigation both at on-station and at on-farm of Adami Tulu Agricultural Research Center and its surrounding districts of Adami Tulu, Dugda and Bora district of central rift valley by participating important influential actors (farmers, NGOs, DAs, district agricultural officers, etc.) from the inception to evaluate different seed treatment options that can favor onion and pepper yield estimate parameters. Bombey red and Marekofana of high yielding, disease tolerant, early maturing, market and farmer preferred varieties were used for the research by collecting from Adami Tulu Agricultural Research Center. Data on performance of yield estimate parameters were evaluated until it was transferred to permanent field. The on-station data analysis result indicated that except root length and greenness of onion and seedling thickness and greenness of pepper, majority of yield estimate parameters were statistically (P < 0.05) significant while root length, shoot length and shoot height of onion on-farm were statistically (P < 0.05) non-significant. For on-station onion, hot water treatment supplemented with dressing the seed with half recommendation rate of apron-star resulted in the highest yield estimate parameters for most of the variables collected. Although there was an absence of consistent for all traits under analysis, sowing seed without any treatment resulted to the lowest count or measurement. But seed treated with mancozeb as per the recommendation gave the highest score or count for pepper except that of leaf number and greenness in which hot water treatment alone resulted in highest count. Even though yield estimate parameters don’t totally reflect actual attainable yield at the end of harvesting, seedlings that were superior for those traits mostly reflect yield if different management options applied as per recommendation set for the crops.
Central rift valley area of East Shewa Zone is among the known producers and suppliers of tropical vegetables like tomato, onion, cabbage, hot pepper and green beans because of suitable edaphic and environmental conditions. However, the production and productivity have been declining because of different biotic stresses and bacterial disease of vegetable crops, like bacterial leaf spot of pepper caused by Xanthomonas campestris pv. Vesicatoria, bacterial canker of tomatoes (Clavibacteria michiganensis pv. Michiganensis) and black rot on cool crops (Xantomonas campestris pv. Campestris), which have become all too common in recent years. Over 90% of the Connecticut pepper plantings inspected over the last five years were infected with bacterial leaf spot that always drastically reduced profit and sometimes resulted in complete crop failure. One of the ways plant pathogens are introduced into a crop is on seeds. Among them, bacterial pathogens are particularly notorious. In general, the earlier a pathogen comes in contact with the crop, the greater the potential for a serious disease problem to develop. This is the reason why it is very important to start with “clean” seed. Clean seed can be obtained by applying one of the treatments described below to kill bacterial pathogens on and/or within the seed [
Successful vegetable crop production and optimum yields can be obtained only when maximum stand establishment is achieved. Stand reduction generally results in yield reduction and variable produce quality. Several factors contribute to stand establishment in the production of vegetable crops. Among which environmental factors (soil, temperature, etc.) as well as pathogens that attack seed and seedlings are the major one [
Pre-sowing seed treatment can help to optimize stand density that leads higher yield. Chemicals are applied to seed for a number of reasons, such as improving physical properties of the seed for ease of handling, reducing pesticide dusts used on seed. Such chemicals can be better protection against disease and biological controls to be added to the surface of the seed [
In history different tomatoes and onion variety were produced for long period of time in this central rift valley of Ethiopia, so this disease or insect pest was developed by these long production periods in the soil by crop re-use buried in the soil for long period of production. Nowadays, those disease or insect pests are making the crop unproductive in central rift valley. To cope up with those problems, the main producers of vegetables in Central Rift Valley of East Shewa Zone use high amounts of seeds per a unit area of land beyond a recommended seeding rate set by research centers for seed with good germination capacity (personal observation).
Since the seed is attributed with different seed born diseases, farmers make high investment to purchase chemicals to control those pests. Therefore, with the current escalating price of vegetable seed and agrochemicals that used to control disease and insects pests, it was high time to search available options to improve seedling, viability and field performance of the crops [
・ To evaluate different seed treatment options that can improve field survival rate of onion and pepper.
・ To create awareness for actors involved in production and dissemination of onion and pepper with the different technological options.
The experiment was conducted in the Central Rift Valley, East Shewa Zone in the three selected districts (Adami Tulu, Dugda and Bora) known for production and suppliers of tropical vegetables including onion and pepper to nearby big cities like Hawasa, Addis Ababa and Adama. In the districts most of the farm lands has been utilized for vegetable production that might be because of location advantage, suitability of edaphic and environmental condition, and accessibility of fresh water from Lake Zeway, Awash and Koka.
T1: Dressing seed with Apron star as recommendation set for the crop.
T2: Dressing the seed with mancozeb as per the recommendation.
T3: Immersing the seed with hot water at 50˚C for 10 minutes.
T4: Boiling seed with hot water at 50˚C for 10 minutes and dressing with Apron star with half of the recommendation.
T5: Boiling the seed with hot water at 50˚C for 10 minutes and dressing with mancozeb with half of the recommendation.
T6: control (farmers practice).
Those six treatments were used for both onion and tomato to reduce the load of seed born that resulted to pre and post-harvest losses of the two commodities.
Following the treatment, representative sample of 100 - 150 seed was planted on Petri dish to evaluate their germination by replicating four times in germination champers. The germinated number was counted from the first date of germination till the expected time of completion. The result indicated the germination potential of the two commodities were promising and falls in acceptable range of (85% to 90%). Then it was planted both on farm and on station by following the full agronomic packages as per the recommendation set for the crop. The treatments were laid out as Randomized Complete Block Design (RCBD) with three replications at on-station and single observation plot at on farm. One representative and potential PA (peasant association) was selected from each of the tree district. Those PA’s were selected based on accessibility to the main road for regular monitoring, potential production of those crops in bulk amount, existence of already established farmers research group. Those three PAs were taken as a replication to handle diversities came from biotic and a biotic factors.
Data were collected at 55 days of seed sowing in nursery (at the time of transplanting to permanent field) on seedlings shoot height (cm), leaf length (cm), shoot thickness (cm), tap root length (cm), greenness scored as (1 = deep yellow; 2 = yellow; 3 = light yellow; 4 = green; 5 = very green) seedling vigrousity scored as (1 = very low vigor; 2 = low vigor; 3 = vigor; 4 = highly vigor; 5 = very highly vigor), count of average leaf number per plant and shoot length (cm). All the collected data were analyzed with SAS 2000 software version 8.0 for the statistically significant variables, mean separation was made using fisher least significant difference at (P < 0.05).
In the past Ethiopian research system participating farmers in technology generation was not done as expected. That resulted shelving of research out comes done at on research station. Feed backs collected from farmers by different scholars’ revealed traits desired by farmers are much more different than that of yield increments reported by researchers. Nowadays participating farmers in technology generation and evaluation as well handling their indigenous knowledge and feedback got due attention. As reported by [
Five farmers including respective district SMS (Subject Matter Specialist) and DA working in those PA were invited to the center for the training at Adami Tulu Agricultural Research Center. They were trained by multidisciplinary team of researchers’ with issues like important disease and their yield losses in vegetable crops at the central rift valley of East Shewa Zone with their pictorial presentation, different seed treatments options that can really reduce seed born disease of (onion and pepper), role and responsibility sharing among actors were made.
The above four parameters were statistically affected by those treatments at P < 0.05 (
In conformity with the above two parameters leaf length and seedling thickness also benefited and became statistically significant with hot water treated with half of apron star while the lowest was observed with control indicating the contribution of the hot water and apron-star to counter act seed born biotic stresses that negatively influence onion yield estimate parameters.
As opposed to the most onion yield estimate parameters, average root length of onion resulted to statistically non-significant at (P < 0.05). This result is corroborated by those of [
Among those five parameters collected for pepper, vigrousity, seedling height and seedling thickness highly
Treatments | Vigrousity | Seedling height | Leaf length | Seedling thickness | Root length | Leaf number | Shoot length | Greenness |
---|---|---|---|---|---|---|---|---|
ASR | 3.00 ab | 20.23 a | 15.77 ab | 0.22 b | 3.25 a | 3.00 bc | 4.56 ab | 3.33 a |
MR | 2.33 bc | 17.07 ab | 13.37 bc | 0.20 b | 2.37 a | 2.43 bc | 3.97 ab | 2.00 a |
HW | 1.67 c | 16.67 ab | 12.33 c | 0.27 b | 2.96 a | 3.26 abc | 3.73 ab | 1.67 a |
ASHW | 3.67 a | 20.80 a | 16.82 a | 0.31 a | 4.00 a | 3.73 a | 4.03 ab | 2.67 a |
MHW | 2.33 bc | 14.87 b | 11.60 c | 0.24 ab | 3.60 a | 3.33 b | 3.23 b | 2.67 a |
C | 2.67 b | 18.00 b | 13.36 bc | 0.17 b | 2.30 a | 2.67 c | 4.60 a | 2.33 a |
F-test | ** | ** | ** | ** | NS | ** | ** | NS |
LSD (0.05) | 0.92 | 4.97 | 3.34 | 0.077 | 1.74 | 0.63 | 1.36 | 1.81 |
CV | 19.36 | 15.26 | 13.23 | 18.56 | 31.02 | 11.13 | 18.66 | 40.68 |
Key: ASR = apron star as recommendation; MR = mancozeb as recommendation; HW = hot water; ASHW = 1/2 apron star with hot water; MHW = 1/2 mancozeb with hot water; C = control; NS = non-significant; **Highly significant; LSD = least significant difference; CV = coefficient of variation. Greenness: 1 = deep yellow; 2 = yellow; 3 = light yellow; 4 = green; 5 = very green. Vigrousity: 1 = very low vigor; 2 = low vigor; 3 = vigor; 4 = highly vigor; 5 = very highly vigor.
responsive and resulted to the highest yield estimate parameters with mancozeb dressing as per the recommendation while hot water resulted to the highest count and score for leaf number and greenness respectively (
The analysis of variance didn’t indicate statistically significant (P < 0.05) variation for this parameter of onion in response to different treatment options. However, treating with apron star as per the recommendation set for the crop resulted to 24.93% root length increment than that of half apron star with hot water treated treatments (
From the current study onion leaf number per plant was highly affected by the treatments and it was statistically significant at P < 0.05 (
Shoot length was non-significantly affected by those treatments at P < 0.05. Even though it is non-significant with the other treatments, the highest shoot length (7.47 cm) was recorded in seed treated by half mancozeb with that of hot water. Evidently the lowest (6.67 cm) was recorded with that of control. From the above all parameters even though there was absence of consistent difference among the treatments the growth parameter were benefited from the treated seeds.
According to [
Leaf length and shoot thickness were statistically (P < 0.05) affected by those seed treatment options, while shoot height was non-significantly affected (
Treatments | Vigrousity | Seedling height | Seedling thickness | Leaf number | Greenness |
---|---|---|---|---|---|
ASR | 3.47 ab | 24.90 a | 0.19 a | 9.20 b | 2.87 a |
MR | 3.93 a | 22.13 a | 0.21 a | 11.20 ab | 3.60 a |
HW | 3.33 ab | 16.33 b | 0.20 a | 12.80 a | 3.73 a |
ASHW | 2.80 b | 15.33 b | 0.21 a | 12.27 a | 3.00 a |
MHW | 2.80 b | 13.92 b | 0.17 a | 10.87 ab | 2.97 a |
C | 3.20 ab | 20.93 a | 0.16 a | 11.00 ab | 3.33 a |
F-test | ** | ** | NS | ** | NS |
LSD (0.05) | 0.91 | 4.09 | 0.057 | 2.52 | 1.37 |
CV | 15.31 | 11.82 | 16.53 | 12 | 23.11 |
Key: ASR = apron star as recommendation; MR = mancozeb as recommendation; HW = hot water; ASHW = 1/2 apron star with hot water; NS = non-significant; **Significant; MHW = 1/2 mancozeb with hot water; C = control; LSD = least significant difference; CV = coefficient of variation. Greenness: 1 = deep yellow; 2 = yellow; 3 = light yellow; 4 = green; 5 = very green. Vigrousity: 1 = very low vigor; 2 = low vigor; 3 = vigor; 4 = highly vigor; 5 = very highly vigor.
Treatments | Root length (cm) | Leaf number | Shoot length (cm) |
---|---|---|---|
ASR | 3.73 a | 2.80 b | 7.40 a |
MR | 3.52 a | 3.93 a | 6.87 a |
HW | 3.27 a | 3.60 ab | 7.33 a |
ASHW | 2.80 a | 3.47 ab | 7.47 a |
MHW | 3.17 a | 3.60 ab | 7.27 a |
C | 3.60 a | 3.47 ab | 6.67 a |
F-test | NS | ** | NS |
LSD (0.05) | 1.248 | 0.99 | 2.16 |
CV | 20.49 | 14.91 | 16.54 |
Key: ASR = apron star as recommendation; NS = non-significant; **Significant; MR = mancozeb as recommendation; HW = hot water; ASHW = 1/2 apron star with hot water; MHW = 1/2 mancozeb with hot water; C = control; LSD = least significant difference; CV = coefficient of variation.
Treatments | Shoot height (cm) | Leaf length (cm) | Shoot thickness (cm) |
---|---|---|---|
ASR | 30.23 a | 23.80 b | 0.31 b |
MR | 35.00 a | 28.37 a | 0.44 ab |
HW | 35.47 a | 28.20 a | 0.48 a |
ASHW | 33.23 a | 26.10 ab | 0.35 ab |
MHW | 32.37 a | 25.17 ab | 0.38 ab |
C | 31.73 a | 25.30 ab | 0.40 ab |
F-test | NS | ** | ** |
LSD (0.05) | 5.61 | 4.37 | 0.148 |
CV | 9.34 | 9.19 | 20.72 |
Key: ASR = apron star as recommendation; MR = mancozeb as recommendation; HW = hot water; ASHW = 1/2 apron star with hot water; MHW = half mancozeb with hot water; C = control; LSD = least significant difference; CV = coefficient of variation.
From the above yield estimate parameters, even though there were clear responses of some growth parameters to those treatments, it is too early to recommend the treatments. From the research findings of [
I express my heartfelt appreciation to JICA-FRGII for their fund support and also all horticulture staffs of Adami Tulu Agricultural research center specially (Abebe Temesgen, Fiseha Tadesse and Ayana Itana) who had been involved in data collection, monitoring as well as training of farmers and other stakeholders. Lastly I would like to thank my beloved wife Lalise for her encouragement and support during the period write up.
M. Teshome-Abdissa,O. Feyissa-Begna,B. Abnet-Dereje, (2015) Pepper and Onion Yield Estimate Parameters as Affected by Seed Treatment Options: In the Selected Districts of Central Rift Valley; Oromia Regional State of Ethiopia. Open Access Library Journal,02,1-7. doi: 10.4236/oalib.1101243