The microboudinage structure of columnar mineral grain is used a passive marker for the palaeostress analysis of rock. In this presentation, we report a detailed application of the microboudin palaeopiezometer through the palaeostress analysis of an individual metachert specimen from the Warrawoona greenstone belt in East Pilbara Terrane, Western Australia. The metachert includes the microboudinaged tourmaline grains. We separately applied the microboudin palaeopiezometer to 3621 tourmaline grains divided into every 10° of their long axes on the foliation surface. The palaeostress analysis revealed that the far-field differential stress σ₀ is obtained the group of mineral lineation ± 15° and perpendicular to the mineral lineation ± 15° as 10.2 MPa and 5.3 MPa, respectively. Also, the values of σ₀ varied corresponding to the orientation of the tourmaline grains; relatively large value of σ₀ obtained from tourmaline grains oriented around the mean orientation defined as the mineral lineation, whereas relatively small value of σ₀ obtained from tourmaline grains oriented around perpendicular to the mineral lineation. Given that σ₁ - σ₃ and σ₁ - σ₂ are as 10.2 MPa and 5.3 MPa, respectively, magnitude of principal deviatoric stresses (σ'₁, σ'₂ and σ'₃) are obtained as σ'₁ = 5.3 MPa, σ'₂ = -0.1 MPa and σ'₃ = -5.1 MPa. In this stress state, the stress ratio φ = (σ₂ - σ₃)/(σ₁ - σ₃) is 0.48 that indicates typical triaxial compression. As the microboudinage is considered to have occurred immediately before the rock encountered the brittle-plastic transition during the plastic deformation, these values correspond to conditions at approximately 10–15 km depth and 300°C within an Archaean greenstone belt.