Difference between revisions of "Parameters"

The model includes 6 parameters, representing morphospace dimensions: (1–3) Chamber scaling ratios defined in 3-dimensional space by 3 parameters: kx - chamber width ratio, ky - chamber height ratio, kz - chamber depth ratio. If all chamber scaling ratios equal each other, i.e., kx = ky = kz, a new chamber is isometric to the previous one. Any differences in chamber scaling ratios cause allometric growth of successive chambers; (4) TF (translation factor) controls an overlap of successive chambers (Fig. 1). The “0” TF value places the centre of a new chamber directly at the aperture of the last chamber. This parameter ranges from “-1” to “+1” values. Higher values detach a new chamber from the existing shell that represents a “forbidden zone” sensu Berger (1969); (5) Df  as a deviation angle (deflection angle) is an angle between the local reference line and the line defining the centre of a new chamber (Fig. 1). It ranges from -180° to 180°. Higher or lower out of range values can be recalculated to the values from the given range; (6) b represents a rotation angle along the local growth line (Fig. 1). This parameter is necessary in 3-dimensional space. It ranges from -180° to 180°. Higher or lower values can also be recalculated.

The model includes 6 parameters, representing morphospace dimensions: (1–3) Chamber scaling ratios defined in 3-dimensional space by 3 parameters: kx - chamber width ratio, ky - chamber height ratio, kz - chamber depth ratio. If all chamber scaling ratios equal each other, i.e., kx = ky = kz, a new chamber is isometric to the previous one. Any differences in chamber scaling ratios cause allometric growth of successive chambers; (4) TF (translation factor) controls an overlap of successive chambers (Fig. 1). The “0” TF value places the centre of a new chamber directly at the aperture of the last chamber. This parameter ranges from “-1” to “+1” values. Higher values detach a new chamber from the existing shell that represents a “forbidden zone” sensu Berger (1969); (5) Df  as a deviation angle (deflection angle) is an angle between the local reference line and the line defining the centre of a new chamber (Fig. 1). It ranges from -180° to 180°. Higher or lower out of range values can be recalculated to the values from the given range; (6) b represents a rotation angle along the local growth line (Fig. 1). This parameter is necessary in 3-dimensional space. It ranges from -180° to 180°. Higher or lower values can also be recalculated.