ABSTRACT
This study investigated how nurseries could benefit by inducing “short” photoperiods as low as 4 hr to produce “better” seedlings characterized by more vigorous roots; a substantial feature to overcome transplanting stress. The carryover effect of the photoperiod was also investigated on seedlings that grew for 30 days more under the consistent 14 hr photoperiod. Seedlings of Pinus brutia were subjected to 4, 6, 8 and 14 hr photoperiod for 3 week. Fifteen seedlings were used to evaluate the leaf area, the root and shoot dry weight and their ratio. Six and sixteen seedlings were used to evaluate the shoot electrolyte leakage and the root growth potential, respectively. Based on the results, the 6 and 8 hr photoperiod indicated greater root allocation (4.8 and 4.9 mg, respectively) and chlorophyll content (3.7 and 4.4, respectively). They also indicated greater leaf area values (3.3 and 3.5 cm2, respectively) along with the 14 hr (3.4 cm2). The photoperiod effect continued even after seedlings were subjected at consistent photoperiod. Overall, “short” photoperiods could provide “better” P. brutia seedlings to accommodate immediate massive reforestation and afforestation needs.
ABSTRACT
The hydrodynamic behavior of two annual legumes (Trifolium angustifolium L. and Onobrychis caput-galli (L.) Lam.) under water shortage was studied in a rain shelter experiment. Seeds were collected from natural grasslands of northern Greece and were sown in pots. Two months after seedlings’ emergence, full irrigation (up to field capacity) and limited irrigation (40% of field capacity) were applied. During the vegetative period the leaf water potential and the relative water content were measured at seven day intervals in both treatments. T. angustifolium retained the lowest values of y both under full (-0.11 to -1.78 MPa) and limited irrigation (-0.16 to -2.90 MPa), while the highest values in both cases were those of O. caput-galli (-0.05 to -0.5 MPa). The results suggested that T. angustifolium was the species mostly affected by limited water supply. T. angustifolium seemed to display adaptation mechanisms to drought similar to those of perennial plants. O. caput-galli displayed a more isohydric behavior, by not altering its water potential under limited irrigation.