The P2(1)/c clinopyroxene kanoite (ideally MnMgSi2O6) was studied as a func
tion of pressure and temperature using powder X-ray diffraction, differenti
al scanning calorimetry (DSC) and optical methods. The temperature of the P
2(1)/c to high-temperature (HT) C2/c transition ranges from 425 degrees C i
n endmember MnMgSi2O6 to 125 degrees C in natural samples with arn aegirine
component. Compiling pigeonite and clinoenstatite-clinoferrosilite literat
ure data, the temperature of the transformation was found to decrease linea
rly with M2 cation size. A synchrotron powder diffraction study in a heated
diamond-anvil cell (DAC) yielded compression and thermal expansion data fo
r low kanoite of composition Mn1.2Mg0.4Fe0.4Si2O6 The high-pressure (HP) ph
ase transition from P2(1)/c to HP C2/c was reversed at 5.8 GPa at 417 degre
es C. The high-temperature phase transition from P2(1)/c to HT C2/c was rat
her indistinct and occurred at approximately 530 degrees C and 0.76 Cpa. In
a separate experiment, the HT transition was observed optically in a hydro
thermal DAC between 0.0 and 0.4 GPa. The in-situ P-T data of both experimen
ts yielded an increase in transition temperature with increasing pressure (
approx. 149 degrees C/GPa) and suggest a change in character of the transit
ion from first order to continuous with increasing pressure. The data indic
ate that the HT C2/c and HP C2/c polymorphs are distinct phases with differ
ent stability fields. Since the high-temperature and the high-pressure poly
morphs of kanoite were shown to be isotypic with other low-Ca clinopyroxene
s such as the (Mg,Fe)SiO3 series, the conclusions we draw from this study a
re valid for all clinopyroxenes with small (< 0.88 Angstrom) M1 and M2 cati
on sizes. The petrologic implications of these conclusions for the occurren
ce of "clinoenstatite" in the Alpe Arami peridotite are discussed.