State and economical benefit of organic production: fields crops and fruits in the world and Montenegro


  • Dejan ZEJAK University of Belgrade, Faculty of Agriculture, Nemanjina 6, 11000 Belgrade (RS)
  • Vera POPOVIĆ Institute of Field and Vegetable Crops, National Institute for the Republic of Serbia, 21000 Novi Sad (RS)
  • Velibor SPALEVIĆ University of Montenegro, Biotechnical Faculty, 81000 Podgorica (ME)
  • Dragana POPOVIĆ University of Novi Sad, Faculty of Economics in Subotica, 21000 Novi Sad (RS)
  • Vuk RADOJEVIĆ Institute of Field and Vegetable Crops, National Institute for the Republic of Serbia, 21000 Novi Sad; University of Novi Sad, Faculty of Agriculture, Dositej Obradovic 8, 21000 Novi Sad (RS)
  • Sezai ERCISLI University of Ataturk, Faculty of Horticulture, Erzurum (TR)
  • Ivan GLIŠIĆ University of Kragujevac, Faculty of Agronomy, Čačak (RS)



field crops, fruit, organic plant production, Montenegro, vegetable, world


Organic farming preserve and upgrade the biodiversity of the soil and biodiversity of the entire ecosystem by protecting the environment, plants, and human health. This study analyses organic plant production worldwide and in Montenegro (2000-2020) and discusses the prospects and challenges in developing organic plant production. Geographically, Montenegro has a diverse climate, suitable for the production of more types of fields crops, vegetables and fruits throughout the year. The paper compares the area of organic farms, the number of farmers, and share of organic in the overall agricultural land in the world and Montenegro, Europe, and several European countries similar to Montenegro in terms of relief or area (Switzerland, Slovenia, Slovakia, Estonia, Serbia, and Cyprus). Data were also analysed for a mountainous state, such as Switzerland, and a Mediterranean one, as Cyprus, as by its position and relief, Montenegro is at the same time a mountainous (northern) and a Mediterranean country (southern region). Shows are trends in plant production areas in Montenegro since it gained independence (2006) and comparison with the EU countries. Grassland production prevails in Montenegro with 85.89%, followed by fruit (12.26%) and cereals (1.62%). The total area under organic vegetable covered a small area compared to the production of fodder crops (3951.84 ha), fruit (563.98 ha), medicinal and aromatic plants (232.46 ha) and field crops (74.49 ha). Organic fruit production has the largest share in the northern part of Montenegro. Certified organic production brings benefits because health-safe products are a condition for preserving the environment and health.


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Božović D, Popović D, Popović V, Živanović T, Ljubičić N, Ćosić M, Spahić A, Simić D, Filipović V (2022). Economical productivity of maize genotypes under different herbicides application in two contrasting climatic conditions. Sustainability 14:5629.

Božović D, Živanović T, Popović V, Tatic M, Gospavić Z, Miloradović Z, Stankovic G, Đokić, M (2018). Assessment stability of maize lines yield by GGE-biplot analysis. Genetika 50(3):755-770.

Čengić-Džomba S, Drkenda P, Gadžo D, Latinović N, Mirecki N, Mirecki S (2014). Organic production. Book. Univerzitety of Montenegro, Faculty of Biotechnology.

Despotović A, Joksimović M, Jovanović M (2015). Impact of demographic changes on agricultural development in Montenegro. Economics of Agriculture 3:613-625.

Despotović A, Jovanović M, Bulatović B (2004). Organic agriculture as a driver of sustainable rural development in Montenegro. Agricultural Economics 51(3-4):172-172.

Dozet G, Đukić V, Miladinov Z, Dozet D, Đurić N, Popović V, Kaluđerović D (2018). Influence of organic fertilizer and genotype on soybean yield in dry farming according to organic principles of cultivation. Journal of Institute of PKB Agroekonomik 24(1-2):145-152.

Filipović V, Popović V, Ugrenović V, Popović S, Plećaš M, Raičević J, Terzić D (2021). Preparations based on medicinal plants usable in urban agriculture. 25th International Eco–Conference: 14th Environmental protection of urban and suburban settlements. Ecological movement of Novi Sad, Serbia, 22-24.9.2021. 344-351.

Fustic B, Djuretic G (2000). Soils of Montenegro [Zemljista Crne Gore]. In: Spalevic V (Ed). Biotechnical Institute, University of Montenegro: Podgorica, Montenegro; pp 1-626.

Glamočlija Đ, Janković S, Popović V, Kuzevski J, Filipović V, Ugrenović V (2015). Alternative field crops in conventional and organic cultivation systems. Monograph. Belgrade, pp 1-355.

Gliessman SR (2007). Agroecology: The Ecology of Sustainable Food Systems. CRC Press: Boca Ratón, FL, USA.

Golijan J (2016). Organic medicinal and aromatic plants production in Republic of Serbia. Lekovitesirovine 36:74-83.

Ikanović J, Popović V (2020). Organic plant production. Book. Faculty of Agriculture, Bijeljina, pp 1-230.

Ikanović J, Popović V, Janković S, Živanović Lj, Rakić S, Dončić D (2014). Khorasan wheat population researching (Triticum turgidum sp. turanicum (McKEY) in the minimum tillage conditions. Genetika 46(1):105-115.

Ikanović J, Popović V, Pavlović S (2020). Agroecology and soil protection. Book. Independent University, Banja Luka, pp 1-220.

Jordan N, Boody G, Broussard W, Glover JD, Keeney D, McCown BH, McIsaac G, Muller M, Murray H, Neal J (2007). Environment: Sustainable development of the agricultural bio-economy. Science 316:1570-1571.

Jovanović M, Despotović A (2012). The analysis of socio-economic conditions for organic production in Montenegro. Economics of Agriculture, Belgrade 59(2):177-356.

Kasperczyk N, Knickel K (2006). Environmental Impacts of Organic Farming. In: Kristiansen P (Ed). Organic Agriculture: A Global Perspective. CSIRO, Clyton, Australia, pp 259-282.

Kolarić L, Popović V, Živanović L, Ljubičić N, Stevanović P, Šarčević Todosijević L, ... Ikanović J (2021). Buckwheat yield traits response as influenced by row spacing, nitrogen, phosphorus, and potassium management. Agronomy 11(12):2371.

Kolarić L, Popović V, Živanović L, Ljubičić N, Stevanović P, Šarčević Todosijević Lj, Simić D, Ikanović J (2021). Buckwheat yield traits response as influenced by row spacing, nitrogen, phosphorus, and potassium management. Agronomy 11:2371.

Lakić Ž, Predić T, Đurđić I, Popović V (2020). Recultivation of degraded soil due to mining activity without adding organic layers of soil using аlfalfa and mixtures of grass legumes. Agriculture and Forestry 66(4):223-237.

Lazić B, Babović J (2002). Organic Agriculture. (Book 1). Institute of Field and Vegetable Crops, Novi Sad, pp 100-200.

Leach M, Scoones I, Stirling A (2010). Governing epidemics in an age of complexity: Narratives, politics and pathways to sustainability. Global Environmental Change 20(3):369-377.

Ludwig D, Hilborn R, Walters C (1993). Uncertainty, resource exploitation, and conservation: lessons from history. Science 260(5104):17-36.

Ljubičić N, Popović V, Ćirić V, Kostić M, Ivošević B, Popović D, Pandžić M, Musafah Seddiq El, Janković S (2021). Multivariate interaction analysis of winter wheat grown in environment of limited soil conditions. Plants–Basel 10(3):604.

Manon H, Lünzer J (2000). Organic Agriculture in Germany. Stiftung Ökologie und Landbau, Bad Dürkheim.

Milošević G, Kulić M, Đurić Z, Đurić O (2020). The taxation of agriculture in the Republic of Serbia as a factor of development of organic agriculture. Sustainability 12:3261.

Mirecki N (2014). Organic production. Book. University of Montenegro, Podgorica, pp 4-302.

New England Tree Fruit Management Guide (2012). Organic Tree Fruit Production in New England.

Ostrom E (2005). Understanding Institutional Diversity. Princeton University Press: Princeton, NJ, USA.

Popovic V, Sikora V, Glamočlija Đ, Ikanović J, Filipović V, Tabaković M, Simić D (2013). Influence of agro-ecological conditions and foliar fertilization on yield and yield components of buckwheat in conventional and organic cropping system. Biotechnology in Animal Husbandry 29(3):537-546.

Popović D, Vitomir J, Jokić M, Arnautović I, Vrhovac D, Barović N, Vujinović K, Popović S (2020): Implementation of internal audit in companies intending to operate on the principles of green economy in the Republic of Serbia. Agriculture and Forestry 66(2):93-98.

Popović D, Vitomir J, Tomaš-Miskin S, Davidov T, Popović S, Jovanović M, Aćimić Remiković M, Jovanović S (2021). Implementation of internal control with reference to the application of "IT" in companies operating on the principles of the green economy. Agriculture and Forestry 67(2):257-266.

Popović S, Grublješić Ž, Popović V, Filipović V (2017). Ecological and economic importance of mulching within the urban areas of large cities of the Republic of Serbia. Biomedical Journal of Scientific & Technical Research 1(6):1633-1636.

Popović V (2015). The concept, classification and importance of biological resources in agriculture. Milovanovic J, Đorđević S (Eds). Conservation and Enhancement of Biological Resources in The Service of Eco-remediation. Monograph. Belgrade, pp 1-407.

Popović V, Jovović Z, Mirecki N, Lakić Ž (2019): Organic production trend. Book. Filipovic, Ugrenovic (Eds). Organic Production and Biodiversity. Open days of biodiversity, Pančevo, pp 3-32.

Popović V, Ljubičić N, Kostić M, Radulović M, Blagojević D, Ugrenović V, Popović D, Ivosević B (2020). Genotype x environment interaction for wheat yield traits suitable for selection in different seed priming conditions. Plants-Basel 9(12):1804.

Popović V, Sikora V, Adamović D, Glamočlija Đ, Rajičić V, Ikanović J (2013). Influence of foliar fertilization on buckwheat yield and quality in organic cultivation system. Bulletin for Alternative Plant Species/Bilten za alternativnebiljnevrste 45(86):55-58.

Popović V, Sikora V, Glamočlija Đ, Červenski J, Vasić M, Gvozdanović Varga J, Maksimović L (2012b). Effect of soil conditioner on yield and quality of organic soybean. III International Simposium Agrosym 15-17.11.2012. Jahorina 435-441.

Popović V, Sikora V, Simić D, Zivanović Lj, Ugrenović V, Filipović V, Zejak D (2014). Effect of foliar fertilization on buckwheat productivity (Fagorypum esculentumMoench) in organic farming system. Journal of Institute of PKB Agroekonomik, Beograd 20(1-2):83-92.

Popović V, Vidić M, Tatić M, Zdjelar G, Glamočlija Đ, Dozet G, Kostić M (2012a). Influence of foliar nutrition on yield and quality of soybeans produced in organic production.Journal of Institute of PKB Agroekonomik, Belgrade 18(1-2):61-70.

Prodanovic R, Babovic J (2014). Economic indicators of organic fruit production. Ekonomija: teorija i praksa 7(4):21-35.

Rajičić V, Popović V, Perišić V, Biberđžić M, Jovović Z, Gudžić N, Mihailović V, Čolić V, Đurić N, Terzić D (2020). Impact of nitrogen and phosphorus on grain yield in winter triticale grown on degraded vertisol. Agronomy 10(6):757-767.

Rajović G (2009a). Agroclimatic conditions and development of a draft plan for organic agriculture in north-eastern Montenegro. Economics 55(1-2):103-114.

Rajović G (2009b). Natural bases for development and distribution of agriculture in northeaster Montenegro. Industry 37(4):15-27.

Ristić Ž (1991). Fiscal Economy: Modern administration. Belgrade, Serbia, pp 480.

Rivera-Ferre MG, Ortega-Cerdà M, Baumgärtner J (2013). Rethinking study and management of agricultural systems for policy design. Sustainability 5:3858-3875.

Simonović Z, Jeločnik M, Subić J (2013). Tax policy in Serbian agriculture. Economics of Agriculture 60(3):637-651.

Skataric G, Spalevic V, Popovic S, Perosevic N, Novicevic R (2021). The vernacular and rural houses of agrarian areas in the Zeta Region, Montenegro. Agriculture 11:717.

Spalevic V (2019). Assessment of soil erosion processes by using the ‘IntErO’ model: case study of the DubokiPotok, Montenegro. Journal of Environmental Protection and Ecology 20(2):657-665.

Spalevic V, Barovic G, Vujacic D, Curovic M, Behzadfar M, Djurovic N, Dudic B, Billi P (2020). The impact of land use changes on soil erosion in the river basin of MiockiPotok, Montenegro. Water 12:2973.

Spalevic V, Djurovic N, Mijovic S, Vukelic-Sutoska M, Curovic M (2013). Soil Erosion Intensity and Runoff on the Djuricka River Basin (North of Montenegro). Malaysian Journal of Soil Science 17:49-68.

Stevanovic A, Šarčević-Todosijević Lj, Bošković J, Popović V, Živanović Lj (2019). Organic production, genetically modified organisms and biodiversity conservation - leading challenges in environmental protection. Scientific conference: Sustainable primary agricultural production in Serbia-state, opportunities, limitations and opportunities. BačkaTopola, pp 95-102.

Stevanović A, Šarčević – Todosijević Lj, Popović V (2018): Primena mikrobioloških đubriva u organskom sistemu proizvodnje, Održiva primarna poljoprivredna proizvodnja u Srbiji – stanje, mogućnosti, ograničenja i šanse, Fakultet za Biofarming, Zbornik radova, pp 13-20. (in Serbian).

Šarčević-Todosijević Lj, Živanović Lj, Janjić S, Popović V, Ikanović J, Popović S, Dražić G (2016). The influence of nitrogen fertilizer on the total number of microorganisms and aminoautotroph dynamics under’’ugar’’ and sown maize. Agriculture and Forestry 62(3):185-196.

Šebek G (2020). Perspective of raising mixed organic fruit orchards in the north of Montenegro. XXV Conference on Biotechnology, Faculty of Agriculture, Čačak, Serbia pp 203-208.

Ugrenovic V, Filipović V, Delić D, Popović V, Stajković Srbinović O, Buntić A, Dozet G (2020). Maintenance of soil fertility on organic farm by modeling of crop rotation with participation alfalfa. Zbornik Maticesrpske za prirodnenauke 138:1-82.

Ugrenović V, Popović V, Ugrinović M, Filipović V, MačkićK, Ljubičić N, Popović S, Lakić Ž (2021). Black oat (Avena strigose Schreb.) ontogenesis and agronomic performance in organic cropping system and Pannonian environments. Agriculture 11(1):55.

Zejak D (2010). Soils of northern Montenegro and their production potential for organic agriculture. Master’s thesis, University of Novi Sad, Faculty of Agriculture pp 1-72.

Zejak D (2011). Basics of Organic Farming. Book. Handbook for agricultural producers. Center for Agricultural Development. BijeloPolje, pp 1-160.

Zejak D (2012). Climate, relief and soil as prerequisites for the development of organic agriculture in the northern part of Montenegro, Book: Basics of agricultural production. Center for Agricultural Development. Bijelo Polje, pp 7-23; pp 1-141.

Zejak D (2014). Possibility of development of sustainable agricultural systems in the regional park “Komovi”. Chapter of the monograph. Agriculture and Climate Change. Center for Agricultural Development and UNDP. In: Zejak D (Ed). Bijelo Polje, pp 1-120.

Zejak D (2020). Production potential of soils for organic agriculture: Case study of the Polimlje Region, North Montenegro. International GEA (Geo Eco-Eco Agro) Conference, 28-31 May 2020, Podgorica, pp 157-158.

Zejak D, Glisic I, Spalevic V, Maskovic P, Dudic B (2021). Sustainable management of fruit growing in rural areas of Montenegro: The impact of location on the phenological and nutritional properties on raspberry (Rubus idaeus L.). Agronomy 11:1663. (downloaded April 19 2022) (downloaded 19 April 2022)



How to Cite

ZEJAK, D., POPOVIĆ, V., SPALEVIĆ, V., POPOVIĆ, D., RADOJEVIĆ, V., ERCISLI, S., & GLIŠIĆ, I. (2022). State and economical benefit of organic production: fields crops and fruits in the world and Montenegro. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 50(3), 12815.



Research Articles
DOI: 10.15835/nbha50312815

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