مقایسه گلدهی و شاخص‌های رنگ کلاله زعفران (.crocus sativus l) بین دو سیستم کاشت هیدروپونیک و مزرعه‌ای

به منظور مقایسه اثر کاشت بنه زعفران در محیط کنترل شده (هیدروپونیک) و محیط مزرعه (بستر خاک) بر پارامترهای گلدهی و شاخص های رنگ کلاله، آزمایشی در مزرعه تحقیقاتی و آزمایشگاه فیزیولوژی باغبانی دانشکده کشاورزی، دانشگاه بیرجند در سال 1399 با چهار تکرار انجام شد. در این آزمایش صفات تعداد گل، سرعت گلدهی، عملکرد گل، متوسط وزن گل، طول گل، طول خامه، طول کلاله، عملکرد خشک کلاله و گلبرگ، عملکرد پرچم (خامه + کلاله) و نیز شاخص های رنگ هانتر شامل میزان روشنایی (l)، قرمزی (a) و زردی (b) کلاله زعفران اندازه گیری شد. بر اساس نتایج مقایسه میانگین از نظر تعداد و عملکرد گل بین دو تیمار تفاوت معنی داری وجود نداشت، ولی حداکثر سرعت گلدهی (5.82 گل بر روز) و متوسط وزن گل  (0.34 گرم) در شرایط کاشت بنه زعفران در محیط کنترل شده بدست آمد. همچنین، کاشت بنه در شرایط کنترل شده موجب حصول بیشترین طول گل، خامه و کلاله زعفران (به ترتیب 7.38، 4.40 و 2.49 سانتی متر) گردید. بیشترین عملکرد خشک کلاله زعفران نیز در شرایط کشت بنه در محیط کنترل شده بدست آمد، به طوری که این تیمار تقریباً به میزان 14 درصد در مقایسه با تیمار کاشت بنه در مزرعه برتری داشت. مقایسه پارامترهای رنگی بین دو تیمار مورد مطالعه بیانگر آن بود که حداکثر روشنایی و قرمزی کلاله (به ترتیب 57.52 و 15.41) در شرایط کنترل شده مشاهده شد. در مجموع، کاشت بنه در محیط کنترل شده موجب افزایش عملکرد کلاله و بهبود نسبی خصوصیات رنگ سنجی کلاله شد.

comparison of flowering and color parameters of saffron stigma obtained from hydroponic and open-field production systems

introduction: the common method of traditional saffron production is its production under open-field conditions. recently, due to climate change outcomes attention has been paid to its production under controlled conditions (hydroponic and aeroponics). in the last two decades, decrease in precipitation, increase in temperature during flower initiation phase and consequently the abortion of some initiated flowers, delay in supplying the proper temperature for flower emergence in autumn, poor soils quality which renders difficulty the flower emergence; have led to the decline in the flowering capacity of saffron in several countries under natural conditions, progressively. accordingly, its hydroponic production could represent a possible solution for reducing the above-mentioned problems, due to the lack of soil, the proper temperature levels, and providing appropriate water availability in this production system (behdani fallahi, 2015; aghhavani-shajari et al., 2021). in addition, under open-field condition, the flowering period of saffron lasts for about three weeks, and during this period of time, high labor is required. to solve this problem, it is possible to extend the corms pseudo-dormancy stage and the flowering phase by using the hydroponic systems, with a controlled environment. in saffron hydroponic planting systems, the amount of water consumption is reduced considerably which is important in dry regions. in addition, flower harvesting in hydroponic system is faster, cheaper, and cleaner, because environmental factors such as wind, dust, and frost, have no effect on flowers (behdani fallahi, 2015; aghhavani-shajari et al., 2021; fallahi et al., 2021a). however, it is necessary to compare the two systems of open-field and hydroponics in terms of the amount of flowering and the quality of the produced stigma.  materials and methods: to compare the effect of saffron corm planting systems (including 1- under controlled environment (hydroponic) and, 2- open-field environment), on flowering indices and stigma color parameters (hunter lab color scale), an experiment was conducted in the research field and horticultural physiology laboratory of faculty of agriculture, university of birjand, during 2019, with four replications. in open-field treatment, the corms were planted in soil at a depth of 10 cm and density of 100 corms per m2, while in the hydroponic system corms were planted in trays (30×40 cm, 100 corms per tray) and were transferred to incubator (temperature: 15 oc, relative humidity: 75%, 8 hours light, 16 hours darkness). in this experiment, the traits of flower number, flowering rate, flower yield, mean flower weight, flower length, style length, stigma length, dry yield of stigma and petal, anther yield, and hunter’s color indices including brightness (l), redness (a) and yellowness (b) of saffron stigma were measured. the two planting systems were compared using t-student test, by sas, 9.2. results and discussion: the results of analysis of variance showed that there was a significant different between two experimental treatments, in terms of the most studied traits. based on the mean comparison results, there was no difference between production systems for the number and yield of flowers. however, the maximum flowering rate (5.82 flowers day-1) and the mean flower weight (0.34 g) were obtained in the hydroponics system. also, planting corms under controlled conditions resulted in the maximum length of flower, style and stigma (7.38, 4.40 and 2.49 cm, respectively). in addition, the highest dry yield of saffron stigma was obtained in the controlled environment, so that this treatment was superior by almost 14% compared to the open-field environment. this finding is similar to those reported previously by maggio et al., (2006), aghhavani-shajar et al., (2021) and khan et al., (2022).