Modeling olive-crop forecasting in Tunisia

Autor:	Ali Ben Dhiab, Eugenio Domínguez-Vilches, Mounir Abichou, Mehdi Ben Mimoun, Carmen Galán, Jose Oteros, Monji Msallem, Herminia García-Mozo
Rok vydání:	2016
Předmět:	0106 biological sciences Hydrology Atmospheric Science 010504 meteorology & atmospheric sciences business.industry Crop yield Humidity Growing degree-day medicine.disease_cause 01 natural sciences Crop Agronomy Agriculture Yield (wine) Pollen medicine Environmental science media_common.cataloged_instance European union business 010606 plant biology & botany 0105 earth and related environmental sciences media_common
Zdroj:	Theoretical and Applied Climatology. 128:541-549
ISSN:	1434-4483 0177-798X
DOI:	10.1007/s00704-015-1726-1
Popis:	Tunisia is the world’s second largest olive oil-producing region after the European Union. This paper reports on the use of models to forecast local olive crops, using data for Tunisia’s five main olive-producing areas: Mornag, Jemmel, Menzel Mhiri, Chaal, and Zarzis. Airborne pollen counts were monitored over the period 1993–2011 using a Cour trap. Forecasting models were constructed using agricultural data (harvest size in tonnes of fruit/year) and data for several weather-related and phenoclimatic variables (rainfall, humidity, temperature, Growing Degree Days, and Chilling). Analysis of these data revealed that the amount of airborne pollen emitted over the pollen season as a whole (i.e., the Pollen Index) was the variable most influencing harvest size. Findings for all local models also indicated that the amount, timing, and distribution of rainfall (except during blooming) had a positive impact on final olive harvests. Air temperature also influenced final crop yield in three study provinces (Menzel Mhiri, Chaal, and Zarzis), but with varying consequences: in the model constructed for Chaal, cumulative maximum temperature from budbreak to start of flowering contributed positively to yield; in the Menzel Mhiri model, cumulative average temperatures during fruit development had a positive impact on output; in Zarzis, by contrast, cumulative maximum temperature during the period prior to flowering negatively influenced final crop yield. Data for agricultural and phenoclimatic variables can be used to construct valid models to predict annual variability in local olive-crop yields; here, models displayed an accuracy of 98, 93, 92, 91, and 88 % for Zarzis, Mornag, Jemmel, Chaal, and Menzel Mhiri, respectively.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::3c4e63925dca4ce621d34629c1054cae https://doi.org/10.1007/s00704-015-1726-1 Zobrazit plný text záznamu Full text from SpringerLink