The 105 plant species were collected in Minas Gerais State, Brazil. They were identified by comparison with specimens available in the Herbarium ESAL-Universidade Federal de Lavras, during the year of 2005 (Table 1). Leaves, barks, flowers, and stalks were oven-dried for 48h at 40°C. After grounding plant materials to pieces smaller than 2mm, part (20g) of each sample was immersed into methanol (50ml) for 48h at room temperature (15 to 30°C). The resulting mixtures were filtrated through cotton wool plugs and the residues were extracted twice with more methanol. The three liquid phases obtained from each plant material were combined and concentrated to dryness in a rotary evaporator. The resulting 126 dry extracts were freeze-dried and stored at −10°C for future use in the experiments.

Fruits exhibiting symptoms of ABS were submitted to the pathogen isolation protocol.5 Thus, pieces (10-25mm2) of washed fruit peels from Murcott tangor were subsequently immersed into 70% ethanol (30-60s), 2% sodium hypochlorite (30-60s) and distilled water (2 x 30s). Four fragments were placed in a Petri dish containing potato-dextrose-agar (PDA). After seven days at 25°C, under a 12h photoperiod, 9mm agar plugs of the medium containing the fungus mycelium were transferred to new PDA plates.18 Then, A. alternata (Fr:Fr) Keissl f. sp. citri was isolated and identified as described by Carvalho et al.5

Fungal plugs (9mm diameter) from the culture medium were transferred to PDA plates, which were maintained for seven days at 25°C under constant illumination provided by Philips daylight fluorescent lamps (20W, TLT, 75RS). The conidia were removed from the PDA plates by adding 10ml of 1% (v/v) Tween 80. The resulting mixture was filtered using sterilized cheesecloth.

Dried plant extracts (2mg) were subsequently dissolved in 500μl of 1% (v/v) Tween 80 and mixed with 100μl of an A. alternata conidial suspension at 2.6-3.0 x 105 conidia/ml. Twenty microliters of the resulting conidia suspension were poured into each 300μl well of a 96-well polypropylene plate containing 130μl of PDA with terramicin-oxitetraciclin chlorhydrate 500mg (Pfizer, 0.55mg/ml PDA). After three days at 25°C, under a 12h photoperiod, plant extracts that prevented fungal growth were considered active. This experiment was carried out with four replicates, using 1% (v/v) Tween 80 as negative control. Aqueous 3.5mg/ml Dacobre WP (chlorotalonil 250g/kg and copper oxychloride 504g/kg, Iharabras S.A. Chemicals Industries) solution in 1% (v/v) Tween 80, and aqueous 0.16mg/ml Amistar 500 WG (Azoxistrobin 500g/kg, Syngenta Crop Protection) solution in 1% (v/v) Tween 80, were used as positive controls.

Fungal disks treated with the most active extracts (A. colubrina, R. graveolens, and A. annua), and the positive (Dacobre WP, Amistar 500 WG) and the negative controls (1% Tween 80) during the fungal growth assay, were removed from the polypropylene plates and submitted to the procedure described by Bozzola and Russel4 with few adaptations. Each disk was fixed in a modified Karnovsky solution (2.5% glutaraldehyde, 2% paraformaldehyde in a 0.05M sodium cacodylate buffer at pH 7.2 containing 0.001M CaCl2) for 48h. The disks were washed three times with the same buffer for 30min, post-fixed for 2h in a 1% osmium tetroxide solution in 0.05M sodium cacodylate buffer at pH 7.2, and washed three times with distilled water. They were then dehydrated in a gradient series of acetone solutions (25, 50, 75, 90 and 100%) and dried with carbon dioxide in a critical point dryer (Bal-tec CPD 030). Finally, the disks were mounted on aluminum stubs with double-sided tape and coated with a 20nm gold layer by vacuum evaporation (Bal-tec SCD 050). All samples were observed in an Evo40 Leo scanning electron microscope.

Based on the fungal growth assay results, a total of 20 plant extracts were selected for the conidial germination assay. Four miligrams of each plant extract were dissolved in 1ml of 1% (v/v) Tween 80 and mixed with 100μl of an A. alternata conidia suspension at 2.6-3.0 x 105 conidia/ml. An aliquot of 520μl of each final suspension was added to 4.0ml of solidified water-agar (WA; 80g of agar and 555mg of tetracycline) medium contained in a 6.0cm Petri dish. After 12h at 25°C, under illumination, conidia were counted and those with the germinative tube length larger or equal to the smaller conidia diameter were considered germinated. This experiment was carried out with four replications (50 conidia each), using an aqueous 1% (v/v) Tween 80 solution as negative control and 3.5mg/ml Dacobre WP and 0.16mg/mL Amistar 500 WG solutions in 1% (v/v) Tween 80 as positive controls.

Plant extracts (20 samples) dissolved (7mg/ml) in 1% (v/v) Tween 80 were poured into 9cm Petri dishes (0.5ml/dish) containing PDA (8ml/dish) with tetracycline (Bunker, 0.55mg/ml PDA). Subsequently, a 9mm PDA disk with a seven-day old A. alternata colony (1.8cm from the colony center) was placed upside down in the center of each Petri dish containing PDA impregnated with plant extract. After seven days at 25°C, under a 12h photoperiod, fungal colony diameters were measured and data were converted into percentage. This experiment was done with three replications, employing 1% (v/v) Tween 80 as negative control and 3.5mg/ml Dacobre WP and 0.16mg/ml Amistar 500 WG solutions in 1% (v/v) Tween 80 as positive controls.

The pH of 20 plant extracts (2mg) dissolved in 600μl of 1% (v/v) Tween 80 1% were measured by dipping pH-indicator strips (Acilit® pH 0-6 and Neutralit® pH 5-10, Merck) into the solutions and comparing the resulting colors to the standard provided by the manufacturer.

Ripe and healthy Murcott tangor fruits were washed with sterilized water and then with 70% ethanol solution. They were let to dry for 60min in a biosafety hood. For injuring the fruits, four points were selected around the point of fruits insertion and, just after, four perforations (3mm deep) were made with a needle in each selected point.5 Each plant extract (2.0mg) was dissolved in 600μl of a 106 conidia/ml in 1% (v/v) Tween 80 and 20μl aliquots were deposited on each selected point. This experiment was carried out with four fruits per treatment. The conidia suspension in 1% (v/v) Tween 80 was used as negative control and mixtures of conidia suspension and the fungicides Dacobre WP (3.5mg/ml) and Amistar 500 WG (0.16mg/ml) as positive controls. Fruits with no conidia, but treated with 20μl of 1% (v/v) Tween 80, plant extract, or fungicide, were also used in this experiment. All fruits were kept in a growth chamber at 25°C under a 12/12 photoperiod. After 8 and 12 days, the lesion diameter around each selected location on fruits was measured with a ruler. Prior to the statistical analysis, data were converted into spots development rate (ABS dr) by dividing the mean value for each fruit by the mean value of all fruits treated only with conidia in 1% (v/v) Tween 80 (negative control). All experiments were repeated twice.

Converted data (ABS dr) and data from the conidial germination and mycelial growth assays were submitted to analysis of variance, and average values were compared by Scott-Knott calculations (P≤0.05). Statistical analyses were done using SISVAR software.7

Among the 126 plant extracts tested in the fungal growth assay, only those from leaves of Artemisia annua, barks of Anadenanthera colubrina and a mixture of flowers and leaves of Ruta graveolens were active against A. alternata (Table 2). Consequently, such extracts, as well as 17 plant extracts that presented no activity in the fungus growth assay, were submitted to the conidial germination and mycelial growth assays.

The results from the conidial germination assay (Table 2) showed that A. colubrina extract (3.0 germinated conidia) was not statistically different from the commercial fungicides Dacobre WP and Amistar 500 WG, which afforded values of 3.5 and 7.2 germinated conidia, respectively. Other extracts such as those from A. annua and F. carica also inhibited A. alternata conidia germination, but in a lesser extent (20.7 and 23.2 germinated conidia, respectively).

The mycelial growth assay (Table 2) also showed that A. colubrina extract was not statistically different from the commercial fungicides. Similarly to the conidial germination assay, other plant extracts, such as C. estrellensis (barks), also presented some antifungal activity in the mycelial growth (34% of inhibition). The best results were obtained with A. annua and A. colubrina (43 and 46% of inhibition, respectively), that were as efficient as the commercial fungicides (45-48% of inhibition).

Scanning electron microscopy (SEM) was used to further investigate the effects of extracts from A. colubrina, A. annua and R. graveolens on A. alternaria. The samples exposed to the A. colubrina extract revealed no conidia or mycelia. Regarding conidia exposed to A. annua extracts, shorter germ tubes than those exposed to Dacobre WP (chlorotalonil and copper oxychloride) were observed, while R. graveolens extracts and Amistar 500 WG caused shrinking in conidia (Fig. 1). The negative control (1% Tween 80) did not cause any spore shrinking.

Figure 1.

Scanning electron micrograph details of Alternaria alternata conidia: A) Severe conidia shrinking caused by exposition to Ruta graveolens extract (3.3mg/ml). An arrow shows the rings (septa) enhanced by whither of cells. B) Conidia shrinking after treatment with Azoxistrobin (0.08g/l), but with less intensity than the observed for the R. graveolens extract. C and D) Conidia after exposition to 1% Tween 80. No deformity was observed.

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Based on the in vitro assays (fungal growth, conidial germination and mycelial growth assays), five plant extracts (A. colubrina, A. annua, C. estrelensis, F. carica and R. graveolens) were selected for assays with Murcott tangor fruits. Only that from A. colubrina showed suppression of lesions caused by A. alternata (Table 3; Fig. 2). Although the efficiency of this extract reduced over time (ABS dr was 0.38A at 8 days and 0.49B at 12 days), the results obtained with such plant extract were statistically similar to those of the commercial fungicides (ABS dr were 0.63 and 0.61 at 8 days and 0.57 and 0.70 at 12 days for Dacobre WP and Amistar 500 WG, respectively). A 16-day evaluation was also tried in this experiment, but except for the fungicides and A. colubrina treatments, all inoculated surfaces on fruits were completely deteriorated by fusion of all lesions. No disease was observed on fruits treated with only 1% (v/v) Tween 80 solution.

Figure 2.

Effects of plant extracts and fungicides on the development of Alternaria brown spots in Murcott tangor fruits eight days after inoculation (106Alternaria alternata conidia/ml): A) Chlorotalonyl and copper oxychloride at 0.87 and 1.76g/l, respectively. B) Azoxistrobin at 0.08g/l. C) Ficus carica. D) Cariniana estrellensis. E) Ruta graveolens. F) Anadenanthera colubrina. G) Artemisia annua extract at 3.3mg/ml. H) 106 conidia/ml resuspended in Tween 80 solution 1.0% (v/v).

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