In this study, research on the determination of the technological level in the greenhouse mechanization in Southeastern Anatolia Region of Turkey has been carried out. The technological equipment and operating parameters that should be in a modern greenhouse have been measured and the situation has been tried to be determined in the region. The results have been tried to be determined in which aspect of Southeastern Anatolia Region in terms of greenhouse mechanization. For this study, 40 greenhouse enterprises in the provinces of Şanlıurfa, Diyarbakır, Mardin, Gaziantep and Kilis which located in the Southeastern Anatolia Region of Turkey were selected. A questionnaire form was prepared considering the technological characteristics that should be in a modern greenhouse. The questionnaire was applied to the greenhouse enterprises and the data were collected. The questionnaire includes the following items: greenhouse area, grown product type, greenhouse construction material, greenhouse material, indoor agriculture application, ventilation system, heating method, irrigation method, vehicles, fogging system, spraying machine, generator, packaging unit, administration building and lodgings. Survey results were analyzed and tried to be determined by scoring the technological level out of 5.  

Keywords - Greenhouse, mechanization, automation, southeastern

[1] Anonymous, 1997. Tarımsal Yapı. (Production-PriceValue).Pub. No:2234. SBN: 975-19-2187-2, Ankara.

[2] Anonymous, 2012. T.C. Güney Ege Kalkınma Ajansı T.C. Anadolu Üniversitesi.

[3] Antalya Gıda, Tarım ve Hayvancılık İl Müdürlüğü. (2012, Haziran 15). www.antalya-tarim.gov.tr.

[4] Çolak, A., 2002. Isıtılmayan Bir Cam Serada Sera İç Sıcaklık, Çiğlenme Sıcaklığı ve Bagıl Nem Deseni Üzerine Bir Arastırma. Ege Üniversitesi Ziraat Fakültesi Dergisi, Cilt 39 (3) Sayfa 105-112 İzmir.

[5] Funt, R, 1989, Management Decision Making Software, Marked, Model, International Society For Horticultural Science Apr., 51-56.

[6] İnan, S. A., 2002, Meyve Fidanı Çoğaltılmasında Kullanılan Köklendirme Seralarının Otomasyonu, Yüksek Lisans Tezi, Sdü, Bahçe Bitkileri Anabilim
Dalı, Isparta.

[7] Jiang, W. J., Yu, H. J., 2004. Present Situation and Development Perspectives of Protected Horticulture in China. International Workshop on “La Produzione in Serra Dopo L’era Del Bromuro Di Metile”. 1-3 Apr., Catania/Italy. S. 233-240.

[8] Junxiang G, Haiqing D, 2011 Procedia Engineering 23 (2011) 374 – 379. Power Electronics And Engineering. Application Design of Greenhouse Surveillance System Based on Embedded Web Server Technology Gao Junxiang, Du Haiqing.

[9] Juncheng, Ma Xinxing Li, Haojie Wen, Zetian Fu, Lingxian Zhang Computers and

[10] Electronics in Agriculture 111 (2015) 92 102. A Key Frame Extraction Method For

[11] Processing Greenhouse Vegetables Production Monitoring.

[12] Kaçıra, M., Short, T. H., Stowell, R.R., 1997. Modeling Natural Ventilation Designs For Greenhouses in Mediterranean Climates. Presented at the ISHS
Symposium, Antalya, Turkey.

[13] Kürklü A, Çağlayan. 2005. Sera Otomasyon Sistemlerinin Geliştirilmesine Yönelik Bir Çalışma, Akdeniz Üniversitesi Ziraat Fakültesi Dergisi, 2005, 18(1), 25-34,Antalya.

[14] Okursoy, R. 1993 Design of a Microprocessor Based Temperature Control System Journal of Agricultural and Forestry. Sayı 17. Sayfa: 977-985. Tübitak, Ankara.

[15] Öneş, A., 1986. Sera Yapım Tekniği. Ankara Üniversitesi Ziraat Fakültesi Yayınları No: 970, Ankara.

[16] Sevgican, A., Tüzel, Y., Gül, A. Ve Eltez, R.Z., 2000. Türkiye’de Örtüaltı Yetiştiriciliği V. Türkiye Ziraat Teknik Kongresi 2. Cilt, Tmmob Ziraat Mühendisleri
Odası, S. 679-707, 17-21 Ocak, Ankara.

[17] Tarumi, 2014, The 2014 International Conference On Agro-İndustry (Icoa) : Competitive and Sustainable Agroindustry For Human Welfare Development of
Plant Approach Technique for Intelligent Greenhouse Hiroshige Nishinaa Faculty of Agriculture, Ehime University, 3-5-7, Tarumi, Matsuyama, Ehime 790-
8566, Japan.

[18] Tuncay, Ö, 1990, Sera Sebze Yetiştiriciliğinde Karşılaşılan Bazı Sorunların Çözümüne Yönelik Bir Bilgisayar Programı, Yüksek Lisans Tezi, E.Ü, Bahçe Birkileri Anabilim Dalı, Bornova.

[19] Tüzel Y. , Eltez R.Z., 1997. Protected Cultivation in Turkey. A Contribution Towards A Data Base For Rotected Cultivation in The Mediterranean Region. (Edit. A.F. Abou-Hadid). Fao Regional Working Group Greenhouse Crop Protection in The Mediterranean Region.

[20] Tüzel, Y., A. Gül , H.Y. Dasgan, M. Özgür, N. Çelik, H.F, Boyacı ve Ersoy, 2005.

[21] Örtüaltı Yetiştiriciliğinde Gelişmeler, Türkiye Ziraat Mühendisliği VI. Teknik Kongresi, 3-7 Ocak 2005, Ankara, I. Cilt; 551-563.

[22] Vadiee A. and Martin V., 2013. Applied Energy, 2013. Energy Management Strategies for Commercial Greenhouses, August 2013.

[23] Yelken, A.. 2003, Seralarda İklim Kontrolüne Yönelik Bir Bilgisayar Programı, Yüksek Lisans Tezi, Çukurova Üniversitesi, Tarım Makinaları Anabilim Dalı, Adana.

[24] Yüksel, A. N., 2000. Sera Yapım Tekniği. Hasad Yayıncılık Ltd. Sti., İstanbul..