ResultsChlorophyll accumulation in

ResultsChlorophyll accumulation in cucumber plants in the presence orabsence of ABAFig. 1 shows cucumber plants grown in the presence or absenceof ABA under sufficient-N or low-N conditions at 30 d after ABAtreatment. There was little effect on the leaf color between thecontrol and ABA-applied cucumber plants under sufficient-N conditions.The cucumber plants grown in the ABA-free mediumturned yellow under low-N conditions, while the plants grown inthe medium containing ABA remained green in a dose-dependentmanner even under same conditions (Fig. 1). The levels of chlorophyllin the cotyledons and first and second leaves of cucumberplants grown in the presence or absence of ABA under sufficient-N or low-N conditions were determined at 10, 20, and 30 d aftertreatment. The levels of chlorophyll a and b in the cotyledons andleaves increased slightly with the application of ABA comparedwith the controls under sufficient-N conditions (Fig. 2A), while itincreased significantly with the application of ABA compared withthe controls under low-N conditions (Fig. 2B). There was almost nodifference in the level of chlorophyll in the cotyledons and leaveswhen ABA 10−5M was applied at different growth periods, andthe degradation of chlorophyll a and b in the leaves was inhibitedby the application of ABA in a dose-response manner under low-N conditions. The ratio of chlorophyll a to b in cucumber plantsgrown in ABA-free medium decreased according to the cultivationperiod, while the ratio in plants treated with ABA was higher evenat 30 d after treatment under low-N conditions. There was onlya slight difference between the control and ABA-applied plantsunder sufficient-N conditions. We also observed that chlorophyllb was significantly more stable in ABA-treated plants under low-Nconditions.

Results
Chlorophyll in Cucumber Plants in The Presence or accumulation.
Absence of ABA
Fig. 1 Shows Cucumber Plants Grown in The Presence or Absence.
of ABA under conditions sufficient-N or Low-N at 30 D After ABA.
Treatment. There was Little Effect on The Leaf color between The.
Control and ABA-Applied Cucumber Plants under sufficient-N conditions.
The Cucumber Plants Grown in The ABA-free Medium.
turned Yellow under Low-N conditions, while The Plants Grown in.
The Medium containing ABA Green remained in a dose-dependent.
Same Manner Even under conditions (Fig. 1). The levels of Chlorophyll
in The First and Second cotyledons and leaves of Cucumber.
Plants Grown in The Presence or Absence of ABA under Sufficient-.
N or Low-N conditions were Determined at 10, 20, and 30 D After.
Treatment. The levels of Chlorophyll a and B in The cotyledons and.
leaves increased slightly with The Application of ABA compared.
with The Controls under sufficient-N conditions (Fig. 2A), while it.
increased significantly with The Application of ABA compared with.
The Controls under low N conditions (Fig. 2B). There was Almost no
difference in The Level of Chlorophyll in The cotyledons and leaves.
When ABA 10-5M was Applied at different growth periods, and.
The degradation of Chlorophyll a and B in The leaves was Inhibited.
by The Application of ABA in a dose-Response. Manner under low
N conditions. The ratio of Chlorophyll a to B in Cucumber Plants.
Grown in ABA-free Medium decreased according to The Cultivation.
period, while The ratio in Higher Plants treated with ABA was Even.
at 30 D After Treatment under Low-N conditions. There was only
a slight difference between The Control and ABA-Applied Plants.
under N-sufficient conditions. We also observed that Chlorophyll
B was significantly more Stable in ABA-treated Plants under Low-N.
conditions.

Results
Chlorophyll accumulation in cucumber plants in the presence or
absence of ABA
Fig. 1 shows cucumber plants grown. In the presence or absence
of ABA under sufficient-N or low-N conditions at 30 d after ABA
treatment. There was little effect. On the leaf color between the
control and ABA-applied cucumber plants under sufficient-N conditions.
The cucumber plants. Grown in the ABA-free medium
.Turned yellow under, low-N conditions while the plants grown in
the medium containing ABA remained green in a dose-dependent
manner. Even under same conditions (Fig. 1). The levels of chlorophyll
in the cotyledons and first and second leaves of cucumber
plants. Grown in the presence or absence of ABA under sufficient -
N or low-N conditions were determined, at 10 20 and 30, d after
treatment.The levels of chlorophyll a and B in the cotyledons and
leaves increased slightly with the application of ABA compared
with. The controls under sufficient-N conditions (Fig. 2A), while it
increased significantly with the application of ABA compared. With
the controls under low-N conditions (Fig. 2B). There was almost no
difference in the level of chlorophyll in the cotyledons. And leaves
.When ABA 10 − 5M was applied at different, growth periods and
the degradation of chlorophyll a and B in the leaves was inhibited
by. The application of ABA in a dose-response manner under low -
N conditions. The ratio of chlorophyll a to B in cucumber plants
grown. In ABA-free medium decreased according to the cultivation
period while the, ratio in plants treated with ABA was higher. Even
.At 30 d after treatment under low-N conditions. There was only
a slight difference between the control and ABA-applied. Plants
under sufficient-N conditions. We also observed that chlorophyll
B was significantly more stable in ABA-treated plants. Under low-N
conditions.