Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
Table 1: Modalities of copper* treatments.
Table 2: Modalities of sulphur* treatments.
Figure 1: Fungicidal efficacy of Salix cortex against apple scab disease V. inaequalis a) on the fruits b) on the leaves and c) on the shoots
Figure 1: Continue...
Figure 2: Effect of Salix cortex application against Plasmopara viticola (downy mildew) a) on the grapes b) on the leaves grapevine. Secondary observations were done on Guignardia bidwellii (black rot)
Figure 2: Continue...
Figure 3: Fungicidal usefulness of Salix cortex for peach tree protection
Figure 4: Toxicity of the willow preparation tested on the bees
Table 3: Aquatic toxicity of willow extracts. Effective concentration (EC50) (immobilisation at 48 hrs,) against aquatic organisms
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