بررسی ارتباط سطح کشت و عملکرد زعفران در بخش کدکن تربت حیدریه

نوع مقاله : مقالات پژوهشی

نویسندگان

1 گروه تولیدات گیاهی، دانشگاه تربت حیدریه

2 رئیس مرکز جهاد کشاورزی بخش کدکن تربت حیدریه

چکیده

این تحقیق به منظور بررسی ارتباط سطح کشت و عملکرد و مقایسه عملکرد زعفران در روستاهای بخش کدکن تربت حیدریه در سال­های 1396 و 1398 انجام شد. از داده­های سطح کشت و عملکرد زعفران در 95 مزرعه در سال 1396 و 173 مزرعه در سال 1398 بخش کدکن تربت حیدریه جهت تجزیه و تحلیل سطح کشت و عملکرد زعفران استفاده شد. این داده­ها از اطلاعات معرفی­نامه­های صادر شده برای تحویل زعفران به مراکز خرید حمایتی توافقی و مصاحبه چهره به چهره با تولید کنندگان زعفران در سال­های 1396 و 1398 جمع‌آوری شد. بر اساس نتایج عملکرد زعفران در روستاهای بخش کدکن در سال 1396 و 1398 به‌ترتیب 5/17 و 8/64 کیلوگرم کلاله خشک در هکتار بود. بر اساس نتایج عملکرد زعفران در سال 1398 نسبت به سال 1396 به دلیل شرایط اقلیمی و مدیریتی، 67 درصد افزایش داشته است. برازش داده­های سطح کشت و عملکرد 95 مزرعه زعفران در سال 1396 با استفاده از مدل خطی نشان داد که با افزایش سطح زیر کشت زعفران، عملکرد کاهش می­یابد (**0/26 (R=. همچنین در مدل چند جمله­ای درجه دو با افزایش سطح زیر کشت تا سطح پنج هکتار عملکرد کاهش پیدا کرد و از آن به بعد کمی روند افزایشی نشان داد (**0/26 (R=. برازش داده­های سطح کشت و عملکرد 173 مزرعه زعفران در سال 1398 بر اساس مدل چند جمله­ای درجه دو (**0/24 (R= نشان داد با افزایش سطح زیر کشت تا سطح هفت هکتار عملکرد کاهش پیدا کرد و از آن به بعد روند افزایشی داشت. در مدل چند جمله­ای درجه سه (**0/28 (R= نیز مانند درجه دو عملکرد تا سطح هفت هکتار کاهش و پس از آن افزایش را نشان داد و سپس ثابت شد. بر اساس نتایج تحقیق حاضر و با توجه به اینکه زعفران جزو محصولاتی است که نیاز کارگری زیادی دارد و با نظام خانوادگی اداره شده، کشت این گیاه برای خرده مالکین نسبت به عمده مالکین بخش کشاورزی بیشتر توصیه می­شود.  

کلیدواژه‌ها

موضوعات


عنوان مقاله [English]

Investigating the Relationship between Cultivation Area and Saffron Yield in Torbat-e Heydariyeh Kadkan Town

نویسندگان [English]

  • M. Naseri 1
  • A. Abbasian 2
1 Department of Plant Production, University of Torbath Heydariyeh
2 Head of Jahad Agricultural Kadkan of Torbat Heydariyeh
چکیده [English]

Introduction: Saffron is an annual plant that grows based on underground organs of the plant as corms and can be used for several years under farming conditions. This plant is the main source of income for many farmers in rural areas of eastern Iran. Khorasan Razavi province with 76% of cultivation area and 74% of production has the first place in saffron production. Among the different cities of Khorasan Razavi province, Torbat Heydariyeh city with a cultivation area of about 8 thousand hectares out of 87 thousand hectares of the whole province has an area equivalent to about 10%. Contrary to the level of cultivation, the average yield in Khorasan Razavi province is 3.4 kg / ha, which is 0.22 kg / ha lower than the national average. Considering that the level of saffron that is increasing in many parts of the country and on the other hand, according to the long-term average statistics, its yield has decreased significantly. The need for continuous monitoring of planting level and yield is one of the most issues for managers and programs. This research was conducted using the information of referral letters issued for guaranteed purchase of saffron in the Torbat-e Heydariyeh Kadkan town to analyze and evaluate the performance of saffron in 2017 and 2019.
Materials and Methods: In order to study saffron cultivation and its yield in the Kadkan town, cultivation data and yield data in the years 2017 and 2019 were analyzed. Guaranteed purchase information of saffron was used to collect data. In 2017, 95 people (at the level of 132 hectares) and in 2019, 173 people (at the level of 257 hectares) of saffron farmers in the Kadkan town to deliver saffron to guaranteed shopping centers (Rural Cooperative Office of Torbat Heydariyeh) to Jihad Agricultural Center. They came to Torbat-e Heydarieh Kadkan and received a letter of introduction. The information of these referrals (area under cultivation, dry stigma yield, production rate, village name and amount of saffron delivered) was used to analyze saffron cultivation in Torbat-e Heydariyeh, Kadkan town in 2017 to 2019.
Results and Discussion: Based on the results of saffron yield in the Kadkan town in 2017 and 2019, 5.17 and 8.64 kg of dry stigma obtained, respectively. The amount of saffron delivered to shopping centers in 2017 and 2019 was 532 and 1270 kg, respectively. According to the results of saffron yield in 2017 compared to 2019 due to climatic and managerial conditions, has increased by 67%. Fitting of cultivation and yield data of 95 saffron farms in 2017 using a linear model showed that with increasing the area under saffron cultivation, yield decreases R = 0.26 **. Also in the polynomial model. Second degree, with increasing the area under cultivation to the level of five hectares, the yield decreased and since then showed a slight increasing trend (R = 0.26 **). Fitting of cultivation data and yield of 173 saffron farms in 2019 based on the second degree polynomial model R = 0.24 24 ** showed that with increasing the area under cultivation up to seven hectares, the yield has decreased and since then it has an increasing trend. In the third degree polynomial model R = 0.28**, like the second degree of yield, decreased to seven hectares and then increased and then was fixed. Considering that the cultivation area of the most farms in Kadkan town was between 0.1 and 2 hectares and farms up to two hectares in the villages of Kadkan townt, it is non-mechanized, therefore, in these farms, the management of smaller farms could be done more easily and the increase in yield for these farms was predictable.
Conclusion: According to the results of the present study, the yield of saffron in 2017 and 2016 was 5.16 and 8.64 kg / ha, respectively. Considering that the average yield of saffron in the country is 3.62 kg per hectare (Statistics of the Ministry of Jihad Agriculture, 2018), the yield of saffron in the Torbat-e-Heydariyeh Kadkan town can be considered as high yield in the country, which is probably due to climatic conditions and is managerial. 67% increase in yield in 2019 compared to 2017due to climatic reasons (increased rainfall) and management (nutrition, agriculture, training, irrigation, proper planting date, use of corms with appropriate weight, disinfection of corms at planting, Summer irrigation, weed control).

کلیدواژه‌ها [English]

  • Climatic conditions
  • Correlation
  • Rainfall
  • Regression
  • Saffron production
1-Badri A., Nadeau S., and Gbodossou A. 2012. A mining project is a field of risks: A systematic and preliminary portrait of mining risks. International Journal of Safety and Security Engineering 2(2): 145-166.
2- Bigelow J., and Mobarki Z. 2008. Assessment of land suitability for cultivation of saffron in Qazvin province on the basis of multiple criteria decision-making methods. Research in Geography 66: 101-119.
3- Dourandish A., RamezaniM.R., and Aminizadeh M. 2020. Study of Farmers’ Attitude towards Sustainable Agriculture and Its Impact on the Total Factor Productivity (Case Study: Saffron Farms in Gonabad County). Saffron Agronomy & Technology 8(1): 99-177.
4- Ebrahimpour E. 2006. An Explanation of Relations between Size of Agricultural Operating Units and Agricultural Intensification Index in Iran with an Emphasis on Rural Community. Journal of Village and Development 9(1): 21-49.
5- Gholami M., Kafi M., Khazaie H., and Abarghouei H. 2019. 'Study the effects of some fertilizer and irrigation managements in adaptation and development of saffron cultivation in arid regions'. Saffron Agronomy and Technology 7(2(: 207-225.
6- Hoseyni M., Molafilaby A., and Nassiri mahalati M. 2008. Spatial and temporal patterns in Saffron (Crocus sativus L.) yield of Khorasan province and their relationship with long term weather variation. Iranian Journal of Field Crops Research 6(1): 79-88.
7-Koocheki A., Karbasi A., and Seyyedi M. 2017. 'Some reasons for saffron yield loss over the last 30 years period (Review Article)'. Saffron Agronomy and Technology 5(2): 107-122.
8- Koocheki A., and Seyyedi S. 2015. Phonological stages and formation of replacement corms of saffron (Crocus sativus L.) during growing period. Journal of Saffron Research 3(2): 134-154.
9- Kouzegaran S. 2018. Modeling of the Saffron Yield Based on Meteorological Extreme Events (Case study: Birjand). Journal of Saffron Research 5(2): 217-229.
10-Kumar R., Singh V., Devi K., Sharma M., Singh M.K., and Ahuja P.S. 2009. State of art of saffron (Crocus sativus L.) agronomy: A comprehensive review. Food Reviews International 25: 44–85.
11- Mohammadi H., Ranjbar F., and Soltani M. 2012. Climatic Potentials Assessment for Saffron Cultivation. Geography and Environmental Planning 22(3): 143-154.
12-Mohtashami T., and Zandi Daregharibi B. 2018. Factors Affecting Excessive Nitrogen Fertilizer Use in Saffron Cultivation: (Case Study: Torbat Heydarieh County). Journal of Saffron Research (semi-annual) 6(1): 127-140.
13-Motiai Langrodi H. 2011. Economic Geography of Iran.  Mashhad University Jihad Publications, 220 p.
14- Naderi Darbaghshahi MR, Khajeh Bashi SM, Bani Taba SA, Dehdashti SM. 2008. Effects of Method, planting density and depth on the yield and operation duration of agronomic saffron field In Isfahan region. Seedling & Seed 24: 643-657.
15-Seyyedi S.M., and Rezvani Moghaddam P. 2020. Proposed Program for Standardization of Saffron Corms: Obstacles and Solutions. Saffron Agronomy & Technology 7(4): 457-479.
16-Statistics of the Ministry of Jihad Agriculture 2018.
17- Statistical Centre of Iran: https://www.razavimet.ir
18- TheWorld BankAnnual Report for2003.
CAPTCHA Image
  • تاریخ دریافت: 15 شهریور 1399
  • تاریخ بازنگری: 21 فروردین 1400
  • تاریخ پذیرش: 24 اردیبهشت 1400
  • تاریخ اولین انتشار: 25 اردیبهشت 1400