MIALI, ALESSIO
MIALI, ALESSIO
DIPARTIMENTO DI BIOTECNOLOGIE E SCIENZE DELLA VITA
Plant Growth in LED-Sourced Biophilic Environments Is Improved by the Biochar Amendment of Low-Fertility Soil, the Reflection of Low-Intensity Light, and a Continuous Photoperiod
2023-01-01 Beatrice, Peter; Miali, Alessio; Baronti, Silvia; Chiatante, Donato; Montagnoli, Antonio
Plant Growth in LED-Sourced Biophilic Environments Is Improved by the Biochar Amendment of Low-Fertility Soil, the Reflection of Low-Intensity Light, and a Continuous Photoperiod
2023-01-01 Beatrice, P.; Miali, A.; Baronti, S.; Chiatante, D.; Montagnoli, A.
Unusual late-fall wildfire in a pre-Alpine Fagus sylvatica forest reduced fine roots in the shallower soil layer and shifted very fine-root growth to deeper soil depth
2023-01-01 Montagnoli, A.; Terzaghi, M.; Miali, A.; Chiatante, D.; Dumroese, R. K.
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
Plant Growth in LED-Sourced Biophilic Environments Is Improved by the Biochar Amendment of Low-Fertility Soil, the Reflection of Low-Intensity Light, and a Continuous Photoperiod | 1-gen-2023 | Beatrice, Peter; Miali, Alessio; Baronti, Silvia; Chiatante, Donato; Montagnoli, Antonio | |
Plant Growth in LED-Sourced Biophilic Environments Is Improved by the Biochar Amendment of Low-Fertility Soil, the Reflection of Low-Intensity Light, and a Continuous Photoperiod | 1-gen-2023 | Beatrice, P.; Miali, A.; Baronti, S.; Chiatante, D.; Montagnoli, A. | |
Unusual late-fall wildfire in a pre-Alpine Fagus sylvatica forest reduced fine roots in the shallower soil layer and shifted very fine-root growth to deeper soil depth | 1-gen-2023 | Montagnoli, A.; Terzaghi, M.; Miali, A.; Chiatante, D.; Dumroese, R. K. |