All Stories

  1. Preventing Glass Misting in Indoor Showcases with Burial Remains at Al Ain, UAE
  2. Microclimate Analysis of Outdoor Showcases in Tropical Climate—Two Case Studies in Al Ain, Abu Dhabi, United Arab Emirates
  3. Homogeneity Assessment and Correction Methodology for the 1980–2022 Daily Temperature Series in Padua, Italy
  4. Instrumental and Observational Problems of the Earliest Temperature Records in Italy: A Methodology for Data Recovery and Correction
  5. DOCU-CLIM: A global documentary climate dataset for climate reconstructions
  6. The Treatise on Waters by Cornaro (1560) and a quantitative assessment of the historical sea surges “Acqua Alta” in Venice
  7. Recovering, correcting, and reconstructing precipitation data affected by gaps and irregular readings: The Padua series from 1812 to 1864
  8. The Gondola: a boat to respond to the history, and the morpho-dynamics of the Venice Lagoon
  9. Impact of long-term (1764-2017) air temperature on phenology of cereals and vines in two locations of northern Italy
  10. The European Standard EN 15757 Concerning Specifications for Relative Humidity: Suggested Improvements for Its Revision
  11. A discussion on sea level rise, rate ad acceleration. Venice as a case study
  12. A comparison between different methods to fill gaps in early precipitation series
  13. Historical Documents as Proxy Data in Venice and Its Marine Environment
  14. Wind-driven rain impinging on monuments and mountain slopes
  15. A comparison between different methods to fill gaps in early precipitation series
  16. How the rain-gauge threshold affects the precipitation frequency and amount
  17. A Discussion on Sea Level Rise, Rate Ad Acceleration. Venice as a Case Study
  18. How the Rain-Gauge Threshold Affects the Precipitation Frequency and Amount
  19. Four centuries of documentary sources concerning the sea level rise in Venice
  20. Galileo’s revolution and the infancy of meteorology in Padua, Florence and Bologna
  21. A relationship between temperature, oxygen dissolved in blood and viral infections
  22. An unusual Barothermometer
  23. From time frames to temperature bias in temperature series
  24. Daily temperature observations in Florence at the mid-eighteenth century: the Martini series (1756–1775)
  25. An Evaluation of the Performance of the Twentieth Century Reanalysis Version 3
  26. Key problems in early wine-spirit thermometers and the “true Réaumur” thermometer
  27. Current European flood-rich period exceptional compared with past 500 years
  28. Long‐term variability and trends in meteorological droughts in Western Europe (1851–2018)
  29. Relationship between selected percentiles and return periods of extreme events
  30. A Comprehensive Study of the Microclimate-Induced Conservation Risks in Hypogeal Sites: The Mithraeum of the Baths of Caracalla (Rome)
  31. Temperature observations in Florence, Italy, after the end of the Medici Network (1654–1670): the Grifoni record (1751–1766)
  32. The earliest temperature record in Paris, 1658–1660, by Ismaël Boulliau, and a comparison with the contemporary series of the Medici Network (1654–1670) in Florence
  33. Three centuries of daily precipitation in Padua, Italy, 1713–2018: history, relocations, gaps, homogeneity and raw data
  34. A critical analysis of the definitions of climate and hydrological extreme events
  35. Urban Climate and Health: Two Strictly Connected Topics in the History of Meteorology
  36. Towards a more reliable historical reanalysis: Improvements for version 3 of the Twentieth Century Reanalysis system
  37. Conservation of brick
  38. The Beccari series of precipitation in Bologna, Italy, from 1723 to 1765
  39. A method to obtain precise determinations of relative humidity using thin film capacitive sensors under normal or extreme humidity conditions
  40. How much temperature will increase the efficiency of electro-osmosis?
  41. Measuring Temperature
  42. Measuring Air Humidity
  43. Theoretical Grounds for Humidity
  44. Humidity and Deterioration Mechanisms
  45. Microclimate and Atmospheric Variables
  46. Introduction to Field Measurements
  47. Atmospheric Stability and Pollutant Dispersion
  48. Preface to the Second Edition (2014)
  49. European Standards Concerning Microclimate for Cultural Heritage and Its Measurement
  50. Rising Damp Treatment and Prevention
  51. Parameters to Describe Air Masses and Vertical Air Motions
  52. Measuring Wind and Indoor Air Motions
  53. Measuring Time of Wetness and Moisture in Materials
  54. Radiometric Aspects of Solar Radiation, Blackbody, and Lamp Radiation
  55. Dry Deposition of Airborne Particulate Matter—Mechanisms and Effects
  56. Climate Change, Human Factor, and Risk Assessment
  57. Temperature: A Key Variable in Conservation and Thermal Comfort
  58. Preface to the First Edition (1998)
  59. Microclimate for Cultural Heritage
  60. Atmospheric Water, Capillary Rise, and Stone Weathering
  61. Consequences of the Maxwell–Boltzmann Distribution
  62. Foreword to the First Edition (1998)
  63. Foreword to the Second Edition (2013)
  64. Measuring Precipitation and Windborne Drops
  65. Photometric Aspects of Visible Light and Colours
  66. Physics of Drop Formation and Micropore Condensation
  67. Reviews to the First Edition (1998)
  68. A MODEL SIMULATION OF THE SOLAR ENERGY IMPINGING ON THE GIZA PYRAMIDS
  69. Standardization activity in the evaluation of moisture content
  70. Evidence from the Archives of Societies: Early Instrumental Observations
  71. A novel proxy and the sea level rise in Venice, Italy, from 1350 to 2014
  72. A critical analysis of one standard and five methods to monitor surface wetness and time-of-wetness
  73. Temperature observations in Bologna, Italy, from 1715 to 1815: a comparison with other contemporary series and an overview of three centuries of changing climate
  74. The Newton linseed oil thermometer: an evaluation of its departure from linearity
  75. When the Lagoon was frozen over in Venice from A.D. 604 to 2012: evidence from written documentary sources, visual arts and instrumental readings
  76. The Stancari air thermometer and the 1715–1737 record in Bologna, Italy
  77. A summer temperature bias in early alcohol thermometers
  78. European summer temperatures since Roman times
  79. Aurorae observed by Giuseppe Toaldo in Padua (1766–1797)
  80. Climate for Culture: assessing the impact of climate change on the future indoor climate in historic buildings using simulations
  81. Weathering of Building Materials
  82. Conservation of Historic Brick Structures
  83. Laboratory tests for the evaluation of the heat distribution efficiency of the Friendly-Heating heaters
  84. Past reconstruction and future forecast of domains of indoor relative humidity fluctuations calculated according to EN 15757:2010
  85. Calibration and multi-source consistency analysis of reconstructed precipitation series in Portugal since the early 17th century
  86. The Little Ice Age in Italy from documentary proxies and early instrumental records
  87. Radiation and Light
  88. Past, present and future effects of climate change on a wooden inlay bookcase cabinet: A new methodology inspired by the novel European Standard EN 15757:2010
  89. Measuring Humidity
  90. Measuring Temperature
  91. Humidity and Conservation
  92. Microclimate, Air and Temperature
  93. Theoretical Grounds for Humidity
  94. Introduction to Field Measurements
  95. Preface to the Second Edition (2014)
  96. Atmospheric Stability and Pollutant Dispersion
  97. Measuring Wind and Indoor Air Motions
  98. Parameters to Describe Air Masses and Vertical Motions
  99. Dry Deposition of Airborne Particulate Matter
  100. Measuring Rainfall and Wind-Borne Droplets
  101. Atmospheric Water and Stone Weathering
  102. Consequences of the Maxwell–Boltzmann Distribution
  103. Foreword
  104. Foreword to the First Edition (1998)
  105. Microclimate for Cultural Heritage
  106. Physics of Drop Formation and Micropore Condensation
  107. Preface to the First Edition (1998)
  108. Reviews to the First Edition (1998)
  109. Early hygrometric observations in Padua, Italy, from 1794 to 1826: the Chiminello goose quill hygrometer versus the de Saussure hair hygrometer
  110. Climate variability analysis of winter temperatures in the central Mediterranean since 1500 AD
  111. Stucco panels of Room VI in the Galleria Borghese (Rome): Physical–chemical analysis and microclimate characterization
  112. Surface monitoring measurements of materials on environmental change conditions
  113. The world’s earliest instrumental temperature records, from 1632 to 1648, claimed by G. Libri, are reality or myth?
  114. Mixed nonlinear regression for modelling historical temperatures in Central–Southern Italy
  115. The earliest thermometer and temperature records, i.e. 1654-1670
  116. Western Mediterranean precipitation over the last 300 years from instrumental observations
  117. Recovery of the early period of long instrumental time series of air temperature in Padua, Italy (1716–2007)
  118. Climate Change in the Mediterranean over the Last Five Hundred Years
  119. The earliest temperature observations in the world: the Medici Network (1654–1670)
  120. Multiscale regression model to infer historical temperatures in a central Mediterranean sub-regional area
  121. Le niveau de la mer à Venise d'après l'œuvre picturale de Véronèse, Canaletto et Bellotto
  122. The western Mediterranean climate: how will it respond to global warming?
  123. An advanced church heating system favourable to artworks: A contribution to European standardisation
  124. The earliest daily barometric pressure readings in Italy: Pisa AD 1657-1658 and Modena AD 1694, and the weather over Europe
  125. The variability of European floods since AD 1500
  126. 500-year temperature reconstruction in the Mediterranean Basin by means of documentary data and instrumental observations
  127. Circulation dynamics and its influence on European and Mediterranean January–April climate over the past half millennium: results and insights from instrumental data, documentary evidence and coupled climate models
  128. Miniaturised Optical Fibre Sensor for Dew Detection Inside Organ Pipes
  129. Impact of Indoor Heating on Painted Wood - Monitoring the Altarpiece in the Church of Santa Maria Maddalena in Rocca Pietore, Italy
  130. A study on the effects of seismicity on subsidence in foreland basins: An application to the Venice area
  131. Corrections of Systematic Errors, Data Homogenisation and Climatic Analysis of the Padova Pressure Series (1725-1999)
  132. Chapter 1 Mediterranean climate variability over the last centuries: A review
  133. The Mediterranean climate: An overview of the main characteristics and issues
  134. The impact of heating, lighting and people in re-using historical buildings: a case study
  135. Damages caused to European monuments by air pollution: assessment and preventive measures
  136. Indoor environment and conservation in the Royal Museum of Fine Arts, Antwerp, Belgium
  137. Use of proxy-documentary and instrumental data to assess the risk factors leading to sea flooding in Venice
  138. Climate since AD 1500
  139. Quantitative Evaluation of Water Deposited By Dew on Monuments
  140. LONG TERM DAMAGE TO THE BUILT ENVIRONMENT
  141. Multidisciplinary Environmental Monitoring at the Kunsthistorisches Museum, Vienna
  142. The microclimate inside the Pollaiolo and Botticelli rooms in the Uffizi Gallery, Florence
  143. Trends of Extreme Temperatures in Europe and China Based on Daily Observations
  144. Corrections of Systematic Errors and Data Homogenisation in the Daily Temperature Padova Series (1725–1998)
  145. History of the Long Series of Daily Air Temperature in Padova (1725–1998)
  146. Calibration and Instrumental Errors in Early Measurements of Air Temperature
  147. Canaletto’s paintings open a new window on the relative sea-level rise in Venice
  148. The climate of Rome and its action on monument decay
  149. Lunar Influences on Climate
  150. Aspects of Stone Weathering, Decay and Conservation
  151. Environmental monitoring in four European museums
  152. Showcases: a really effective mean for protecting artworks?
  153. Day-to-day temperature variability trends in 160- to 275-year-long European instrumental records
  154. Archaeometry of Air Pollution: Urban Emission in Italy during the 17th Century
  155. Seasonality of instability phenomena (hailstorms and thunderstorms) in Padova, northern Italy, from archive and instrumental sources since AD 1300
  156. Carbonate Stone: Chemical Behaviour, Durability and Conservation
  157. Microclimate for Cultural Heritage
  158. Indoor air quality at the Correr Museum, Venice, Italy
  159. The Indoor Environment of a Modern Museum Building, The Sainsbury Centre for Visual Arts, Norwich, UK
  160. Urban Climatology Applied to the Deterioration of the Pisa Leaning Tower, Italy
  161. Thermodynamic exchanges between the external boundary layer and the indoor microclimate at the Basilica of Santa Maria Maggiore, Rome, Italy: the problem of conservation of ancient works of art
  162. Documentary Evidence on Climate in Sixteenth-Century Europe
  163. Flood Events of Selected European Rivers in the Sixteenth Century
  164. The Conservation of Artworks and Hot Air Heating Systems in Churches: Are They Compatible? The Case of Rocca Pietore, Italian Alps
  165. The conservation of artworks and hot air heating systems in churches: are they compatible? the case of rocca pietore, italian alps
  166. Foreword
  167. Deposition of urban pollution on the Ara Pacis, Rome
  168. Microanalysis of Museum Aerosols To Elucidate the Soiling of Paintings:  Case of the Correr Museum, Venice, Italy
  169. Controlling the microclimate and particulate matter inside the historic anatomy theatre, Padua
  170. The analysis of two bi-millennial series: Tiber and Po river floods
  171. Study of the Microclimate of the Hall of the Giants in the Carrara Palace in Padua
  172. Documentary sources of the sea surges in Venice fromad 787 to 1867
  173. Micro-analysis of museum aerosols to elucidate the soiling of paintings
  174. Physical weathering of stones
  175. Book review
  176. Impact of the clouds of volcanic aerosols in Italy during the last 7 centuries
  177. Microclimate in the Chiericati palace municipal museum, Vicenza
  178. Chronology of ?dry fogs? in Italy, 1374?1891
  179. Controlling the Aeolian Erosion of the Great Sphinx
  180. Controlling the aeolian erosion of the Great Sphinx
  181. Microclimatic factors affecting the Trajan Column
  182. Reconstructing the climate and the air pollution of Rome during the life of the Trajan Column
  183. Analysis of the sea surges at Venice from A.D. 782 to 1990
  184. DARIO CAMUFFO, Clima e uomo, Milano, Garzanti, 1990, 207 pp.
  185. Acid rain and deterioration of monuments: How old is the phenomenon?
  186. Wall temperature and the soiling of murals
  187. Locust invasions and climatic factors from the Middle Ages to 1800
  188. Transboundary transport of atmospheric pollutants through the eastern alps
  189. INDOOR AND OUTDOOR MICROCLIMATE CASE STUDIES: THE TRAJAN COLUMN AND SISTINE CHAPEL
  190. ENVIRONMENT AND MICROCLIMATE
  191. A meteorological anomaly in Palestine 33 centuries ago: How did the sun stop?
  192. Comments on ?A meteorological anomaly in palestine 33 centuries ago: How did the sun stop?? by D. Camuffo [Theor. Appl. Climatol., 41, 81?85 (1990)]
  193. Acidic Precipitation Research in Italy
  194. Anomalies of the upper-wind field induced by the Alpine Chain during winter
  195. Particle deposition from a natural convection flow onto a vertical isothermal flat plate
  196. Modelling the thermal pattern of a statue or column exposed to periodic lighting conditions
  197. Analysis of the real-time measurement of the pH of rainfall at Padova, Italy: Seasonal variation and meteorological aspects
  198. Microclimate and interactions between the atmosphere and Orvieto Cathedral
  199. Pollution episodes at Venice related to weather types: An analysis for a better predictability
  200. Freezing of the Venetian Lagoon since the 9th century A.D. in comparision to the climate of western Europe and England
  201. Applications of the generalized gamma distribution to air pollution problems: The case of Venice
  202. Thermal structure inside a statue or column under stationary lighting
  203. Reconstruction and analysis of meteorological data for energy balances over the Venetian Lagoon and its hinterland
  204. A dew point signaller for conservation of works of art
  205. Deterioration Processes of Historical Monuments
  206. Microclimate and weathering of a historical building: The Ducal Palace in Urbino
  207. Computing the energy balance of a statue of bronze: The San Marco's horses as a case study
  208. An empirical formula for an accurate evaluation of the flux density of net radiation
  209. The pH of the atmospheric precipitation in Venice, related to both the dynamics of precipitation events and the weathering of monuments
  210. A first-order analysis of the heat wave in the soil
  211. Analysis of the series of precipitation at Padova, Italy
  212. Authors' reply
  213. Condensation-evaporation cycles in pore and capillary systems according to the Kelvin model
  214. Reply to Prof. Lettau
  215. The influence of run-off on weathering of monuments
  216. Comments on ?An observational study of heat fluxes and their relationship with net radiation?, by D. Camuffo and A. Bernardi
  217. Origin and growth mechanisms of the sulfated crusts on urban limestone
  218. Indoor dynamic climatology: Investigations on the interactions between walls and indoor environment
  219. An observational study of heat fluxes and their relationships with net radiation
  220. The sea breeze at Venice, as related to daily global solar radiation
  221. Computing the flux of moisture from net radiation and soil wetness
  222. The diurnal trend in surface mixing ratio at Padova, Italy
  223. The nocturnal IBL over an hilly island with reference to the diffusion of radioactive nuclei
  224. Wetting, deterioration and visual features of stone surfaces in an urban area
  225. A comparison of the evaporation rate over the mainland with that over the sea
  226. Fluctuations in wind direction at Venice, related to the origin of the air masses
  227. Hot-horse anemometry
  228. Fog and related diffusion potential at Venice: Two case studies
  229. Microclimate inside the Scrovegni Chapel in Padua
  230. Oscillations in pollutant concentration occurring in cold offshore flow over Venice
  231. Graphic recording and averaging the wind direction
  232. Local Mesoscale Circulation over Venice as a Result of the Mountain-Sea Interaction
  233. Solar radiation at Rome, Italy, and its environment
  234. Local mesoscale circulation over Venice as a result of the mountain-sea interaction
  235. Cumulated frequency distribution of daily global solar radiation at Venice, Italy
  236. A method for measurement of mean wind direction with the use of standard potentiometric transducers
  237. How to obtain mean value and variance of wind direction by using a sine-cosine transducer
  238. A simple device for preliminary studies on air pollution dynamics