Managing weeds in organic cropping systems is notoriously difficult. We analyzed the seed bank dynamics in vegetable crop rotations carried out in both the typical Mediterranean scenarios of the open field and greenhouse. The lower seed bank detected in the greenhouse (about 53,000 seeds mâ 2) showed a higher emergence rate than the seed bank found in the open field, which was almost twice the size. This higher emergence rate was due both to: i) the more favorable temperature in the greenhouse, and ii) the less depth-mediated soil-imposed dormancy, due to the seed bank being at a lower depth as a result of minimum tillage. A strong infestation of Cyperus rotundus was found in the greenhouse again, due to the tuber arrangement in the shallowest soil layer (0â 10Â cm). The ubiquitous and abundant Amaranthus retroflexus, taken as a model to investigate the dormancy-status of exhumed seeds showed that the lower emergence rate in the open field, was not due to dormancy but exclusively to depth-mediated soil inhibition. In addition, the calculation of various indexes of the weed seed bank botanical composition highlighted that the more quantitatively abundant greenhouse weed community was formed by more graminoid species (poaceae and cyperaceae), perennial species, C4photosynthetic pathway species and by lower biodiversity. Lastly agronomic strategies are proposed which could improve the weed control sustainability in organic cropping systems.
Weed seedbank dynamics in Mediterranean organic horticulture
Benvenuti, Stefano
;Pardossi, Alberto
2017-01-01
Abstract
Managing weeds in organic cropping systems is notoriously difficult. We analyzed the seed bank dynamics in vegetable crop rotations carried out in both the typical Mediterranean scenarios of the open field and greenhouse. The lower seed bank detected in the greenhouse (about 53,000 seeds mâ 2) showed a higher emergence rate than the seed bank found in the open field, which was almost twice the size. This higher emergence rate was due both to: i) the more favorable temperature in the greenhouse, and ii) the less depth-mediated soil-imposed dormancy, due to the seed bank being at a lower depth as a result of minimum tillage. A strong infestation of Cyperus rotundus was found in the greenhouse again, due to the tuber arrangement in the shallowest soil layer (0â 10Â cm). The ubiquitous and abundant Amaranthus retroflexus, taken as a model to investigate the dormancy-status of exhumed seeds showed that the lower emergence rate in the open field, was not due to dormancy but exclusively to depth-mediated soil inhibition. In addition, the calculation of various indexes of the weed seed bank botanical composition highlighted that the more quantitatively abundant greenhouse weed community was formed by more graminoid species (poaceae and cyperaceae), perennial species, C4photosynthetic pathway species and by lower biodiversity. Lastly agronomic strategies are proposed which could improve the weed control sustainability in organic cropping systems.File | Dimensione | Formato | |
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