The Mw 8.0 Pisco earthquake struck at 6.40pm local time with an epicentre offshore about 150 km south of Lima. At least 519 people were killed, and over 1,300 injured. Over 38,000 homes were destroyed and more than 100,000 were made homeless. 14 hospitals were destroyed and many other facilities damaged. The city of Pisco was worst affected with serious damage to the majority of adobe buildings. Other cities and towns nearby suffered similar damage to a lesser extent, depending on the distance from the epicentre. The capital Lima was not seriously affected, although there was some minor damage to buildings. Strong ground motions were felt for over two minutes. In this subduction earthquake a tsunami was generated and affected tens of kilometres of coast. The New Zealand Society for Earthquake Engineering Society (NZSEE) sent a 6-person reconnaissance team to Peru. The team spent three days in Lima meeting with key authorities and four days in the field observing some of the earthquake-affected area. This report describes the team’s observations and comments on the implications for earthquake engineering practice. Highlights of the event in the eyes of the team were: The long duration of the event – over 2 minutes of strong shaking The unique geotechnical context – no rainfall and sandy soils Significant liquefaction damage to roads and buildings Poor performance of adobe construction Generally good performance of reinforced concrete brick infill – but there were major collapses. Good performance of some unreinforced masonry buildings Widespread use of shear walls in major buildings in Lima Engineered structures generally performed well Damage to parts of Pan American Highway due to liquefaction Minimal damage to a major steel mill, designed to international standards Collapse and/or overload of telecom systems for up to four hours following the event, isolating Pisco and Ica Water and waste water systems and storage were seriously affected in Pisco, and significantly in Ica Port St Martin, serving Pisco, was seriously damaged but functional Coordination of overseas / international aid needs careful consideration as part of response planning. Management of response resources is critical. There were significant tsunami effects which were variable in height up to 10 metres. Relatively minor damage to architectural finishes and building services can render hospitals non-functional. Survival of industrial facilities was important in reducing social impact by saving jobs. The best of Peruvian earthquake engineering is international standard. The development of earthquake-resistant standards in schools over the last three decades has paid dividends with modern designs performing well.