Page 15 - Volume 4, Issue 1, January 2011
Basic HTML Version
© Benaki Phytopathological Institute
Laboratory of Non-Parasitic Diseases, Deparatment of
Phytopathology, Benaki Phytopathological Institute,
8 St. Delta Str., GR-145 61 Kifissia, (Athens), Greece
Corresponding author:
Hellenic Plant Protection Journal
4:
13-19, 2011
Response of young olive trees to nitrogen fertilization
Y.E. Troyanos and E. Roukounaki
Summary
The response of young olive trees to soil nitrate nitrogen imposed by different N fertiliza-
tion rates and to a foliar N–P-K fertilizer was investigated in a pot experiment. The dry weight of leaves
increased with increasing soil N fertilization rate, whereas that of the whole plants sprayed with a foli-
ar N-P-K was not affected. The root length increased in N-deficient olives (e.g. olives grown without N
fertilization) indicating that the N-deficient olives produced a longer root system. However, this longer
root system was accompanied by a reduction in (stems+leaves+shoots) : root length ratio. When the
leaf N concentration was <2% and the soil nitrate nitrogen <25 mg/kg DWT, the plants had the low-
est leaf dry weight.
Additional Keywords:
leaf dry weight, nitrate,
Olea europaea
L., root length
Introduction
In Greece, farmers are investing to modern
olive growing by using drip-irrigation, fer-
tigation and no-tillage cropping system for
reducing soil erosion. However, fertiliza-
tion of olive trees is based mostly on tradi-
tion, i.e. few growers are following soil and
leaf analyses for the application of fertilizers,
whereas most of them use only their empiri-
cal knowledge as a guide. During the estab-
lishment of young olive trees, fertilization
practices applied by the growers are quite
diverse. Some growers apply large quanti-
ties of nitrogen (N) fertilizers, while others
none. The former may over-fertilize the ol-
ive trees causing potential growth reduction
and toxicities. The latter claim that, without
fertilization the young olive trees produce
a large root system that penetrates deep-
er into the soil, which is desirable especial-
ly when there is water shortage (e.g. in rain-
fed conditions). However, in that case, olive
trees are under-fertilized and growth reduc-
tion could be evident.
Response to N fertilization of young ol-
ive trees grown in soil (8) and nutrient solu-
tions (13) has been reported in the literature.
However, there is a discrepancy concerning
the effect of N fertilization on mature ol-
ive trees. Hartmann (14) reported that ma-
ture olive trees responded to N only when
grown in poor soil. Other researchers (5, 6)
have shown that the traditional fertilization
based on annual applications of N-P-K had
no effect on yield of mature olive trees com-
pared to the leaf analysis-based fertilization,
which had a positive effect on yield. Howev-
er, mature olive trees have been found to re-
spond to foliar application of urea (2, 5, 17,
19) and potassium (18). In recent years, foliar
feeding has been used extensively in olive
orchards, especially under rain-fed condi-
tions, where shortage of soil moisture re-
duces the availability of fertilizers (7).
In the present study, an experiment was
carried out to investigate the response of
young olive trees to N fertilization. Differ-
ent rates of soil N fertilization and a foliar
N-P-K fertilizer were applied to young olive
trees (cv. ‘Koroneiki’). The objectives were a)
to determine the minimum soil NO
3
-N con-
centration ([NO
3
-N]) and the minimum leaf
N concentration ([N]) for maximum growth,
b) to determine the minimum N, P and K
root absorption rates required for maximum
growth of young olive trees, and c) to test
if foliar feeding with a N-P-K fertilizer could
sustain the maximum growth of plants. The
