4. DiscussionOverall, we observed t

4. Discussion
Overall, we observed that the degree of fungicidal or fungistatic activity was not constant during the sampling season. In general, Botrytis development during in vitro and in situ experiments was more affected by extracts from leaves harvested in cold, dry and also hot months. Aqueous extracts and powders from leaves harvested from October to February inhibited the mycelial growth and sporulation of this fungus in in vitro studies while powders from October harvested leaves also reduced fungal development of strawberry (coolest season). Similarly, leaves harvested in April and June (driest and hottest season) inhibited mycelial development and fruit infection of strawberry. Others have reported the fungicidal effect according to a specific geographical area or active compound. Lira-Saldı́var et al. (2001) found differences in the fungicidal effect of leaf extracts of Larrea tridentata against F. oxysporum, harvested in two different areas of the dessert of Chihuahua and Sonora, Mexico. In that study the highest concentration of resins with antifungal properties was found in those leaves harvested from the Sonoran dessert. The authors stated that these differences might be due to the different latitude and altitude between the Sonoran and the Chihuahuan dessert. Espinosa-Garcı́a and Langenheim, 1991a and Espinosa-Garcı́a and Langenheim, 1991b reported that the fungus Pestalotia subcutilaris was differentially affected according to the presence or absence of a particular active compound present in the tree named Hymenea spp. Espinosa-Garcı́a (2001), highlights the significance of identifying the chemical profile of the secondary metabolites of those plants with pesticidal and fungicidal effects. The fungicidal or fungistatic effects of the monthly samples tested in this present research, might be related to changes in environmental conditions i.e. temperature and relative humidity, hence differences with the presence and quantity of specific active compounds with fungicidal activity.

In this study, we did not observe a defined relationship between the high absorbance values of seeds and the monthly harvested leaves with fungicidal or fungistatic effects. However, we did observe a relationship between the inhibition of mycelial growth and less sporulation with high values of absorbance. According to the literature, the yellow–green fluoresces zone at UV 365 nm is likely to be the kaempferol compound (Wagner et al., 1984). The obtained Rf values in this study suggest the presence of this compound. However, an Rf at 0.75 may indicate that the kaempferol is bonded to other compounds such as glycosides. Secondary metabolites are a mixture of different active compounds, each of them acting according to concentration and structure. In this present study, powder application on strawberry fruit compared with aqueous extracts had a better fungicidal effect, since powders were not subjected to an extraction process, they had various and different active compounds that might be acting all together. However, other evaluations carried out in our laboratory have demonstrated the fungicidal effects of the isolated compound kaempferol against various postharvest fungi (data not shown). This compound has been also reported with fungicidal activity against F. oxysporum on carnation ( Curir et al., 2001).

To date, chemical analyses of leaves and seeds of P. dulce have led to the identification of other saponines and flavonols such as quercitin ( Nigam and Mitra, 1970, Sahu and Mahato, 1994 and Nigam and Gopal, 1997). Therefore, the elucidation of other chemical structures with bioactive potential in seeds and leaves of this plant species against postharvest decay microorganisms of fruit need to be investigated.