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Clerget, B and Sidibe, M and Bueno, C S and Grenier, C and Kawakata, T and Domingo, A J and Layaoen, H L and Gutiérrez-Palacios, N D and Bernal, J H and Trouche, G and Chantereau, J (2021) Crop photoperiodism model 2.0 for the flowering time of sorghum and rice that includes daily changes in sunrise and sunset times and temperature acclimation. Annals of Botany, 128 (1). pp. 97-113. ISSN 0305-7364
Clerget, B and Sidibe, M and Bueno, C S and Grenier, C and Kawakata, T and Domingo, A J and Layaoen, H L and Gutiérrez-Palacios, N D and Bernal, J H and Trouche, G and Chantereau, J (2021) Crop photoperiodism model 2.0 for the flowering time of sorghum and rice that includes daily changes in sunrise and sunset times and temperature acclimation. Annals of Botany, 128 (1). pp. 97-113. ISSN 0305-7364
Clerget, B and Rattunde, H F W and Weltzien, E (2012) Why tropical sorghum sown in winter months has delayed flowering and modified morphogenesis in spite of prevailing short days. Field Crops Research, 125. pp. 139-150. ISSN 0378-4290
Clerget, B and Dingkuhn, M and Goze, E and Rattunde, H F W and Ney, B (2008) Variability of phyllochron, plastochron and rate of increase in height in photoperiod-sensitive sorghum varieties. Annals of Botany, 101 (4). pp. 579-594.
Clerget, B and Rattunde, H F W and Dagnoko, S and Chantereau, J (2007) An easy way to assess photoperiod sensitivity in sorghum: Relationships of the vegetative-phase duration and photoperiod sensitivity. Journal of SAT Agricultural Research, 3 (1). pp. 1-3.
Dingkuhn, M and Singh, B B and Clerget, B and Chantereau, J and Sultan, B (2006) Past, present and future criteria to breed crops for water-limited environments in West Africa. Agricultural Water Management, 80. pp. 241-261.
Clerget, B and Dingkuhn, M and Chantereau, J and Hemberger, J and Louarn, G and Vaksmann, M (2004) Does panicle initiation in tropical sorghum depend on day-to-day change in photoperiod? Field Crops Research, 88 (1). pp. 21-37.
Clerget, B and Sidibe, M and Bueno, C S and Grenier, C and Kawakata, T and Domingo, A J and Layaoen, H L and Gutiérrez-Palacios, N D and Bernal, J H and Trouche, G and Chantereau, J (2021) Crop photoperiodism model 2.0 for the flowering time of sorghum and rice that includes daily changes in sunrise and sunset times and temperature acclimation. Annals of Botany, 128 (1). pp. 97-113. ISSN 0305-7364
Clerget, B and Sidibe, M and Bueno, C S and Grenier, C and Kawakata, T and Domingo, A J and Layaoen, H L and Gutiérrez-Palacios, N D and Bernal, J H and Trouche, G and Chantereau, J (2021) Crop photoperiodism model 2.0 for the flowering time of sorghum and rice that includes daily changes in sunrise and sunset times and temperature acclimation. Annals of Botany, 128 (1). pp. 97-113. ISSN 0305-7364
Clerget, B and Rattunde, H F W and Weltzien, E (2012) Why tropical sorghum sown in winter months has delayed flowering and modified morphogenesis in spite of prevailing short days. Field Crops Research, 125. pp. 139-150. ISSN 0378-4290
Clerget, B and Dingkuhn, M and Goze, E and Rattunde, H F W and Ney, B (2008) Variability of phyllochron, plastochron and rate of increase in height in photoperiod-sensitive sorghum varieties. Annals of Botany, 101 (4). pp. 579-594.
Clerget, B (2008) Variabilité de la vitesse de développement chez le sorgho cultivé (Sorghum bicolor (L.) Moench) et relation avec le photopériodisme. Cahiers Agricultures, 17 (2). pp. 101-106.
Clerget, B and Haussmann, B I G and Boureima, S S and Weltzien, E (2007) Surprising flowering response to photoperiod: Preliminary characterization of West and Central African pearl millet germplasm. Journal of SAT Agricultural Research, 5 (1). pp. 1-5.
Clerget, B and Rattunde, H F W and Dagnoko, S and Chantereau, J (2007) An easy way to assess photoperiod sensitivity in sorghum: Relationships of the vegetative-phase duration and photoperiod sensitivity. Journal of SAT Agricultural Research, 3 (1). pp. 1-3.
Dingkuhn, M and Singh, B B and Clerget, B and Chantereau, J and Sultan, B (2006) Past, present and future criteria to breed crops for water-limited environments in West Africa. Agricultural Water Management, 80. pp. 241-261.
Clerget, B and Dingkuhn, M and Chantereau, J and Hemberger, J and Louarn, G and Vaksmann, M (2004) Does panicle initiation in tropical sorghum depend on day-to-day change in photoperiod? Field Crops Research, 88 (1). pp. 21-37.
Clerget, B and Sidibe, M and Bueno, C S and Grenier, C and Kawakata, T and Domingo, A J and Layaoen, H L and Gutiérrez-Palacios, N D and Bernal, J H and Trouche, G and Chantereau, J (2021) Crop photoperiodism model 2.0 for the flowering time of sorghum and rice that includes daily changes in sunrise and sunset times and temperature acclimation. Annals of Botany, 128 (1). pp. 97-113. ISSN 0305-7364
Clerget, B and Haussmann, B I G and Boureima, S S and Weltzien, E (2007) Surprising flowering response to photoperiod: Preliminary characterization of West and Central African pearl millet germplasm. Journal of SAT Agricultural Research, 5 (1). pp. 1-5.
Dingkuhn, M and Singh, B B and Clerget, B and Chantereau, J and Sultan, B (2006) Past, present and future criteria to breed crops for water-limited environments in West Africa. Agricultural Water Management, 80. pp. 241-261.
Clerget, B and Sidibe, M and Bueno, C S and Grenier, C and Kawakata, T and Domingo, A J and Layaoen, H L and Gutiérrez-Palacios, N D and Bernal, J H and Trouche, G and Chantereau, J (2021) Crop photoperiodism model 2.0 for the flowering time of sorghum and rice that includes daily changes in sunrise and sunset times and temperature acclimation. Annals of Botany, 128 (1). pp. 97-113. ISSN 0305-7364
Clerget, B and Rattunde, H F W and Weltzien, E (2012) Why tropical sorghum sown in winter months has delayed flowering and modified morphogenesis in spite of prevailing short days. Field Crops Research, 125. pp. 139-150. ISSN 0378-4290