Abstract
The olive growing sector is transitioning from traditional to intensive irrigated cultivation, dictating a need to reconsider orchard management practices including fertilization. Potassium (K) is an essential nutrient, typically found in high concentrations in plants. Orchard K fertilization requirements are commonly derived from the disparity between assumed tree requirements and extractable soil K. The long-term impact of insufficient fertilization on K available in the soil, growth, and yield of irrigated field-grown olive trees was evaluated over six consecutive seasons. Withholding of K fertilization led to lower exchangeable and soluble K concentrations in the soil and significantly impaired yield. The reduction in yield was attributed to reduced flowering and fruit set, resulting in a lower fruit number. Tree vegetative growth and flowering quality traits were not affected. In addition, trees not receiving K appeared to be more susceptible to alternate bearing. Following two seasons of omitting K fertilization, leaf K concentration did not decrease below the conventionally accepted sufficiency threshold for olive (0.8%). In spite of this, the trees produced significantly lower yields. Our results suggest that long-term insufficient K fertilization results in reduced soil available K and consequently impairs tree productivity. The results imply that the sufficiency threshold for K in diagnostic leaves should be reconsidered for intensive orchards. Moreover, the current method for K deficiency detection using leaf K concentration may be inadequate for intensive orchards. Integration of other parameters, such as fruit K content, leaf Na, and changes in soil exchangeable K content or sorption energy, may promote a more reliable analysis of orchard K nutritional status.
Highlights
Orchard management includes a number of aspects that determine productivity
The lower levels of soil saturated paste K content in the plots receiving no K fertilizer indicated reduced availability of K to the trees. In both fertilization regimes and all depths, soil solution K levels were significantly higher at the end of the irrigation seasons compared to the beginning of the seasons (Figure 1a,b)
Considering the combined soil and plant measurements, we carefully suggest that, to avoid accumulation or depletion of soil exchangeable K levels at high yields, orchard K requirement where the experiment was conducted was 164 kg ha−1 season−1 (269 kg − 105 kg)
Summary
Orchard management includes a number of aspects that determine productivity. The dominant limiting variable for productivity in rain-fed olive (Olea europaea L.) orchards is water availability [1]. Following Liebig’s law of the minimum, the yield will be determined by the dominant limiting factor, possibly nutrient availability. Fertilization, in most cases with nutrients supplied via the irrigation system (“fertigation”) is a common practice in intensive irrigated agriculture [2]. Potassium (K) fertilization is a common practice supporting sustainable crop production in intensive agriculture [3]. Potassium plays fundamental roles in plant water management and osmoregulation and is thought to be important for plant stress tolerance to abiotic stress causing factors including drought, salinity, and radiation [6]
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