- citati u SCIndeksu: 0
- citati u CrossRef-u:0
- citati u Google Scholaru:[
 ]
- posete u poslednjih 30 dana:17
- preuzimanja u poslednjih 30 dana:10
|
|
|
2021, vol. 70, br. 1, str. 41-59
|
|
Simulacija primene dve mere adaptacije na klimatske promene na prinos pšenice, kukuruza i suncokreta modelom AquaCrop
Application of two measures of adaptation to climate change for assessment on the yield of wheat, corn and sunflower by the aquacrop model
Projekat: Ministarstvo prosvete, nauke i tehnološkog razvoja Republike Srbije (institucija: Univerzitet u Beogradu, Poljoprivredni fakultet) (MPNTR - 451-03-68/2020-14/200116)
Sažetak
Učestala pojava suše poslednje dve dekade kao i povećanje temperature vazduha stvara bojazan kod poljoprivrednika da ratarska proizodnja neće biti moguća bez navodnjavanja. Cilj ovog rada je da se procene kako dve mere adaptacije na klimatske promene rokovi setve i navodnjavanje i viškovi vode utiču na prinos pšenice, kukuruza i suncokreta na području Republike Srbije. Analizom je obuhvaćeno pet reprezentativnih lokaliteta (Rimski Šančevi, Valjevo, Kragujevac, Negotin i Leskovac). Za analizu buduće promene klimatskih uslova u Srbiji korišćeni su rezultati ansambla od devet regionalnih klimatskih modela iz Euro-CORDEX baze. Za najverovatniju vrednost izračunata je medijana rezultata dobijenih za svaki član ansambla. Referentni period je 1986-2005., dok su budući periodi: 2016-2035., 2046-2065. i 2081-2100. Analize su urađene za scenario emisije gasova staklene bašte RCP8.5. Simulacije prinosa, rokova setve i norme navodnjavanja su dobijene primenom AquaCrop modela v.6.1. Rezultati istraživanja ukazuju da će doći do pomeranja rokova setve za kukuruz i suncokret do 5, 11 i 19 dana ka ranijim početkom, sredinom i krajem veka, dok će rokovi setve za pšenicu gajenu u uslovima bez navodnjavanja varirati od 20. septembra do 30. novembra) u zavisnosti od pojave prvih značajnijih kiša tokom jeseni, a u uslovima navodnjavanja pšenica se može sejati u optimalnim rokovima (početak oktobra). Toplija klima će uticati na skraćivanje vegetacionog ciklusa svih proučavanih klutura, ali se ono značajno razlikuje po lokalitetima. Najveće skraćenje se očekuje kod kukuruza u Valjevu, od 34 do 48 dana početkom i krajem veka, dok se u Negotinu očekuje skraćivanje od svega 6 dana. Pomereni rokovi će omogućiti da se najosetljivije fenofaze, cvetanje i formiranje ploda, pojave u periodu povoljnijih vremenskih prilika, tako da neće doći do smanjenja prinosa kod suncokreta, već do blagog povećanja (2,3 - 13,8 %), dok će prinosi kukuruza ostati na sadašnjem nivou. Povećanje prinosa pšenice se može očekivati u bliskoj budućnosti do 8.3 %, ali i pad prinosa na nekim lokalitetima. Znatno veće vrednosti standardne devijacije od prosečnih prinosa pšenice se javljaju krajem veka i na navodnjavanoj i na nenavodnjavanoj pšenici, što ukazuje na pojavu većih temperaturnih stresova, a ne suše. Deficiti vode za pšenicu, kukuruz i suncokret će ostati u opsegu sadašnjih vrednosti, ali samo ukoliko se setva obavi u optimalnim rokovima. Iako je poznato da se navodnjavanjem menjaju mikroklimatski uslovi, tj. povećava se vlažnost vazduha i smanjuje temperatura vazduha (tzv. efekat oaze) što može uticati na produženje vegetacionog perioda, a samim tim i na povećanje prinosa. Takve suptilne izmene mikroklime modeli ne mogu da "prepoznaju" tako da ni simulirani prinosi ne mogu biti u potpunosti (precizno) prognozirani. Ovim istraživanjima se dolazi do zaključka da se pored navodnjavanja i pomeranjem rokova setve može uticati na ublažavanje posledica klimatskih promena u ratarskoj proizvodnji, što je od velikog značaja za područja u kojima nema dovoljno vode za navodnjavanje. Rizik od suše će postojati na plitkim i peskovitim terenima i na zemljištima na kojima je otežana obrada zemljišta i setva u optimalnim rokovima.
Abstract
Frequent occurrence of droughts over the last two decades, as well as increases in the air temperature increase have led to the rise farmers' concerns that field crop production would not be possible without irrigation. The aim of this research is to assess how two adaptation measures, sowing dates and irrigation and water excess impacts the yields of wheat, maize and sunflower in Serbia. In order to assess the future of climatic condition five representative locations have been selected for the analysis (Novi Sad, Valjevo, Kragujevac, Negotic and Leskovac). For the analysis of future climatic conditions, results of the ensemble of nine regional climate models from the Euro-CORDEX database were used. The period between 1986 and 2005 was used as a reference, while time slices in the future are: 2016-2035 (near future), 2046-2065 (mid-century) and 2081-2100 (end of the century). Analyses were made for the scenario of GHG emmisions RCP8.5. Aquacrop model v.6.1 was used for the yield, sowing period, and irrigation requirement assessment. The analysis and the results have indicated that earlier start of the growing season of maize and sunflower for 5, 11 and 19 days in near future, mid and end of the century, respectively, whereas optimal sowing period for rainfed wheat will vary from September 20 to November 30, depending on rainfall occurrence, and for irrigated one in optimal sowing period (beginning of October). The warmer climate will shorten the growing cycle of all studied crops. However, the shortening significantly differs among locations. The growing cycle of maize shortened from 34 up to 48 days in Valjevo in near future through the end of the century, while in Negotin it could be less only for 6 days. The increase in air temperature and earlier start of the growing season will enable the most sensitive phenophases, flowering and fruit formation, to appear in a period of more favorable weather conditions, together with the increase in CO2 concentration, can help mitigate the negative impact of the climate change, so that there will be no reduction in sunflower yields. Slight increment of sunflower yields could be expected by the end of century (2.3 - 13.8%), whereas yield of maize will remain on the present level. The increase of wheat yield could be expected only in the near future (up to 8.3 %), but also it can be reduced at some locations by the end of the century. Irrigation water requirements of all studied crops will remain at the same level the same level as the present, but only if sowing applied in the optimal period. Although it is known that irrigation changes microclimatic conditions, ie., the air humidity increases, and the air temperature decreases (the so-called oasis effect), which can affect the extension of the vegetation period, and thus the increase in yield. Such subtle changes in the microclimate cannot be "recognized" by models, so even simulated yields cannot be fully (accurately) predicted. This research come to the conclusion that in addition to irrigation, shifting the sowing dates earlier can have an impact on mitigating the consequences of climate change in crop production, which is of great importance for areas where there is not enough water for irrigation. The risk of drought will exist on shallow and sandy soils as well as on overwetted lands that cannot be plowed until drained to be sown in optimal terms and all crops sown in the late spring.
|
|
|
|
Reference
|
|
|
Aćin, V. (2016) Rokovi i gustine setve u funkciji prinosa ozime pšenice u dugotrajnom poljskom ogledu. Novi Sad: Univerzitet u Novom Sadu - Poljoprivredni fakultet, Doktorska disertacija
|
|
 
|
Agovino, M., Casaccia, M., Ciommi, M., Ferrara, M., Marchesano, K. (2019) Agriculture, Climate Change and Sustainability: The Case of EU-28. Ecological Indicators, 105: 525-543
|
|
|
Balalić, I., Zorić, M., Crnobarac, J. (2012) Interpretation of hybrid by sowing date interaction for 1000 seed weight in sunflower. Ratarstvo i povrtarstvo, vol. 49, br. 3, str. 229-235
|
|
|
Bär, R., Rouholahnejad, E., Rahman, K., Abbaspour, K.C., Lehmann, A. (2015) Climate Change and Agricultural Water Resources: A Vulnerability Assessment of the Black Sea Catchment. Environmental Science & Policy, 46: 57-69
|
|
|
Čukaliev, O., Tanaskovik, V., Mukeatov, D., Martinovska-Stojčevska, A., Dimitrov, L. (2020) Navodnjavanje kao mera adaptacije i ublažavanja efekata klimatskih promena. u: Simpozijum: Navodnjavanje i odvodnjavanje u svetlu klimatskih promena. Vršac, 9-11 septembar 2020, zbornik sažetaka, 6
|
|
|
Demir, A.O., Göksoy, A.T., Büyükcangaz, H., Turan, Z.M., Köksal, E.S. (2006) Deficit Irrigation of Sunflower (Helianthus Annuus L.) in a Sub-humid Climate. Irrigation Science, 24(4): 279-289
|
|
|
Djurdjević, V., Vuković, A., Vujadinović-Mandić, M. (2018) Osmotrene promene klime u Srbiji i projekcije buduće klime na osnovu različitih scenarija budućih emisija. UNDP
|
|
|
Dolijanović, Ž., Kovačević, D., Oljača, S., Momirović, N. (2008) The grain yield of winter wheat in different growing systems. Poljoprivredna tehnika, vol. 33, br. 2, str. 89-94
|
|
|
Doorenbos, J., Kassam, A.H. (1986) Yield Response to Water. u: FAO Irrigation and drainage paper, Rome, (33), 257
|
|
|
Dragović, S., Maksimović, L. (2000) Effect of sowing date on yield and quantitative characteristics of some wheat varieties grown in irrigation. Zbornik radova Instituta za ratarstvo i povrtarstvo, br. 33, str. 201-215
|
|
|
Fronzek, S., Carter, T.R., Pirttioja, N., Alkemade, R., Audsley, E., Bugmann, H., Janes-Bassett, V. (2019) Determining Sectoral and Regional Sensitivity to Climate and Socio-economic Change in Europe Using Impact Response Surfaces. Regional Environmental Change, 19(3): 679-693
|
|
|
Hamidov, A., Helming, K., Bellocchi, G., Bojar, W., Dalgaard, T., Ghaley, B.B., Kvaernø, S.H. (2018) Impacts of Climate Change Adaptation Options on Soil Functions: A Review of European Case-studies. Land Degradation & Development, 29(8): 2378-2389
|
|
|
Idrizović, D., Pocuca, V., Mandic, M.V., Djurovic, N., Matovic, G., Gregoric, E. (2020) Impact of Climate Change on Water Resource Availability in a Mountainous Catchment: A Case Study of the Toplica River Catchment, Serbia. Journal of Hydrology, 587: 124992
|
|
1
|
IPCC (2014) Climate Change 2014: Impacts, Adaptation, and Vulnerability: Part A: Global and Sectoral Aspects. u: Field C.B; Barros V.R; Dokken D.J; Mach K.J; Mastrandrea M.D; Bilir T.E; Chatterjee M; Ebi K.L; Estrada Y.O; Genova R.C; Girma B; Kissel E.S; Levy A.N; Maccracken S; Mastrandrea P.R; White L.L. [ur.] Contribution of Working Group II to the Fifth assessment report of the Intergovernmental Panel on Climate Change, Cambridge, United Kingdom - New York, NY, USA: Cambridge University Press, 1132
|
|
|
Iqbal, M., Shen, Y., Stricevic, R., Pei, H., Sun, H., Amiri, E., Penas, A., del Rio, S. (2014) Evaluation of the FAO AquaCrop Model for Winter Wheat on the North China Plain Under Deficit Irrigation from Field Experiment to Regional Yield Simulation. Agricultural Water Management, 135: 61-72
|
|
|
Jacob, D., Petersen, J., Eggert, B., Alias, A., Georgopoulou, E. (2014) Euro-CORDEX: New High-resolution Climate Change Projections for European Impact Research. Reg. Environ. Change, 14(2): 563-578
|
|
1
|
Jancic, M., Lalic, B., Mihailovic, D.T., Jacimovic, G. (2015) Impact of Climate Change and Carbon Dioxide Fertilization Effect on Irrigation Water Demand and Yield of Soybean in Serbia. Journal of Agricultural Science, 153(8): 1365-1379
|
|
|
Kolarić, L., Glamočlija, Đ., Živanović, L., Ikanović, J. (2013) Uticaj gustine useva na prinos semena hibrida suncokreta. Zbornik naučnih radova sa XXVII Savetovanja agronoma, veterinara, tehnologa i agroekonomista, 19(1-2): 149
|
|
1
|
Lalić, B., Eitzinger, J., Mihailović, D.T., Thaler, S., Jančić, M. (2013) Climate Change Impacts on Winter Wheat Yield Change: Which Climatic Parameters Are Crucial in Pannonian Lowland?. Journal of Agricultural Science, 151(6): 757
|
|
1
|
Latković, D., Starčević, L., Marinković, B., Malešević, M., Jaćimović, G., Crnobarac, J. (2008) Uticaj roka i gustine setve na visinu prinosa kukuruza. Letopis naučnih radova Poljoprivrednog fakulteta, vol. 32, br. 1, str. 70-74
|
|
1
|
Mihailović, D.T., Lalić, B., Drešković, N., Mimić, G., Djurdjević, V., Jančić, M. (2015) Climate Change Effects on Crop Yields in Serbia and Related Shifts of Köppen Climate Zones Under the SRES-A1B and SRES-A2. Int. J. Climatol., 35(11): 3320-3334
|
|
3
|
Olesen, J.E., Trnka, M., Kersebaum, K.C., Skjelvåg, A.O., Seguin, B., Peltonen-Sainio, P., Rossi, F., Kozyra, J., Micale, F. (2011) Impacts and Adaptation of European Crop Production Systems to Climate Change. European Journal of Agronomy, 34(2): 96-112
|
|
|
Ruml, M., Vuković, A., Vujadinović, M., Đurđević, V., Ranković-Vasić, Z., Atanacković, Z., Sivčev, B., Marković, N., Matijašević, S., Petrović, N. (2012) On the Use of Regional Climate Models: Implications of Climate Change for Viticulture in Serbia. Agric Forest Meteorol, 158: 53-62
|
|
|
Stojković, M., Prohaska, S., Plavšić, J. (2014) Internal stochastic structure of annual discharge time series of Serbia’s large rivers. Water research and management, vol. 4, br. 2, str. 3-13
|
|
|
Stričević, R., Prodanović, S., Đurović, N., Petrović-Obradović, S., Đurović, D. (2019) Izveštaj uticaja osmotrenih klimatskih promena na poljoprivredu u Srbiji i projekcije uticaja buduće klime na osnovu različitih scenarija budućih emisija. Beograd, Program Ujedinjenih nacija za razvoj, Izveštaj je pripremljen u okviru projekta 'Priprema izveštaja R. Srbije prema Okvirnoj konvenciji Ujedenjenih nacija o promeni klime (UNFCCC)', koji sprovodi Mini
|
|
|
Stričević, R., Simić, A., Vujadinović-Mandić, M. (2019) Uticaj klimatskih promena na potrebe prirodnih travnjaka za vodom. u: IX Simpozijum 'Inovacije u ratarskoj i povrtarskoj proizvodnji'. Poljoprivredni fakultet, Univerzitet u Beogradu. Beograd, 17-18.oktobar 2019, Zbornik izvoda, 19-19
|
|
|
Stričević, R.J., Stojaković, N., Vujadinović-Mandić, M., Todorović, M. (2018) Impact of Climate Change on Yield, Irrigation Requirements and Water Productivity of Maize Cultivated Under the Moderate Continental Climate of Bosnia and Herzegovina. Journal of Agricultural Sciences (Belgrade), 156(5): 618-627
|
|
|
Stričević, R., Srđević, Z., Lipovac, A., Prodanović, S., Petrović-Obradović, O., Ćosić, M., Đurović, N. (2020) Synergy of Experts' and Farmers' Responses in Climate-change Adaptation Planning in Serbia. Ecological Indicators, 116: 106481-106481
|
|
|
Stričević, R., Ćosić, M., Đurovic, N., Pejić, B., Maksimović, L. (2011) Assessment of the FAO AquaCrop Model in the Simulation of Rainfed and Supplementally Irrigated Maize, Sugar Beet and Sunflower. Agricultural Water Management, 98(10): 1615-1621
|
|
1
|
Stričević, R., Srđević, Z., Vujadinović-Mandić, M., Srđević, B. (2017) Održivo upravljanje vodnim resursima i water footprint koncept - primer primene u voćarstvu. Vodoprivreda, vol. 49, br. 4-6, str. 183-190
|
|
|
Vanuytrecht, E., Raes, D., Willems, P., Semenov, M.A. (2014) Comparing Climate Change Impacts on Cereals Based on CMIP3 and EU-ENSEMBLES Climate Scenarios. Agricultural and Forest Meteorology, 195: 12-23
|
|
1
|
Videnović, Ž., Simić, M., Srdić, J., Dumanović, Z., Pavlov, M. (2011) Effect of sowing time on yield of ZP maize hybrids. Journal on Processing and Energy in Agriculture, vol. 15, br. 1, str. 23-26
|
|
|
Vuković, A., Vujadinovic, M., Djurdjevic, V., Cvetkovic, B., Rankovic-Vasic, Z., Przic, Z., Krzic, A. (2015) Fine Scale Climate Change Analysis: From Global Models to Local Impact Studies in Serbia. u: HAICTA, 892-901
|
|
1
|
Vuković, A.J., Vujadinović, M.P., Rendulić, S.M., Đurđević, V.S., Ruml, M.M., Babić, V.P., Popović, D.P. (2018) Global Warming Impact on Climate Change in Serbia for the Period 1961-2100. Thermal Science, 22(6 Part A): 2267-2280
|
|
|
Webber, H., Ewert, F., Olesen, J.E., Müller, C., Fronzek, S., Ruane, A.C., Wallach, D. (2018) Diverging Importance of Drought Stress for Maize and Winter Wheat in Europe. Nature Communications, 9(1): 1-10
|
|
|
|
|