Performance of green roofs with respect to water quality and reduction of energy consumption in tropics: A review

Green roofs are an increasingly important component of water-sensitive urban design systems that can potentially improve the quality of urban runoff, reduce the energy consumption of buildings, and add esthetic value to the environment. The most important green roof abilities, which appear as a key feature in urban catchments are the ability of rainwater detention and retention and reduction in energy consumption. This paper aims to provide an overview of the effects of the application of the green roof strategy on the quality of runoff water and the reduction of energy consumption. The components of a green roof are discussed, and the advantages and disadvantages of different types of green roofs are assessed. In addition, the origins and concentrations of the main pollutants are discussed, moreover environmental cost-benefits of green roofs are also considered. In addition, the main factors that affect the quality of green roof runoff water, e.g., plant species, fertilization, pH, growth media as well as how green roofs could reduce energy consumption are discussed. Green roofs are considered as sustainable approach for runoff management with achieved aesthetical values and in combination with energy saving on heating/cooling. Hence, green roof causes a sufficient decrease in energy consumption and consequently in the related energy costs. It can help to improve the micro climate around the buildings and save money and also improve water quality. Therefore, green roofs may turn into a profitable investment. Some recommendations for future study also are proposed.

[1]  Earth Pledge Green roofs : ecological design and construction , 2005 .

[2]  D. Raes,et al.  Green roofs as a tool for solving the rainwater runoff problem in the urbanized 21st century , 2006 .

[3]  Bruce Dvorak,et al.  Green roof vegetation for North American ecoregions: A literature review , 2010 .

[4]  R. Ries,et al.  Storm Water Runoff Mitigation Using a Green Roof , 2009 .

[5]  M. N. Assimakopoulos,et al.  On the green roof system. Selection, state of the art and energy potential investigation of a system installed in an office building in Athens, Greece , 2008 .

[6]  F. B. Talbot,et al.  Green roof valuation: a probabilistic economic analysis of environmental benefits. , 2008, Environmental science & technology.

[7]  X. Qin,et al.  A green roof test bed for stormwater management and reduction of urban heat island effect in Singapore. , 2013 .

[8]  J. Mattsson,et al.  Effect of using conventional and controlled release fertiliser on nutrient runoff from various vegetated roof systems , 2007 .

[9]  J. C. Berndtsson Green roof performance towards management of runoff water quantity and quality: A review , 2010 .

[10]  N. Wong,et al.  Investigation of thermal benefits of rooftop garden in the tropical environment , 2003 .

[11]  D. Botteldooren,et al.  Reducing the acoustical façade load from road traffic with green roofs , 2009 .

[12]  N. Dunnett,et al.  Drought tolerance in different vegetation types for extensive green roofs: Effects of watering and diversity , 2010 .

[13]  M. Santamouris,et al.  Analysis of the green roof thermal properties and investigation of its energy performance , 2001 .

[14]  Matthias Finkbeiner,et al.  The cost of green roofs disposal in a life cycle perspective: Covering the gap , 2012 .

[15]  David J. Sailor,et al.  Exploring the building energy impacts of green roof design decisions – a modeling study of buildings in four distinct climates , 2012 .

[16]  Emmanuel Berthier,et al.  Use of green roofs to solve storm water issues at the basin scale – Study in the Hauts-de-Seine County (France) , 2016 .

[17]  The Research of Ecological and Economic Benefits for Green Roof , 2011 .

[18]  K. Sopian,et al.  A review of energy aspects of green roofs , 2013 .

[19]  David J. Sailor,et al.  A green roof model for building energy simulation programs , 2008 .

[20]  D. Rowe,et al.  Green roofs as a means of pollution abatement. , 2011, Environmental pollution.

[21]  Edgar Villarreal-Gonzalez,et al.  Response of a Sedum green-roof to individual rain events , 2005 .

[22]  Kasun Hewage,et al.  How “green” are the green roofs? Lifecycle analysis of green roof materials , 2012 .

[23]  William F. Hunt,et al.  A Field Study of Green Roof Hydrologic and Water Quality Performance , 2008 .

[24]  Kristin L. Getter,et al.  Effect of green roof media depth on Crassulacean plant succession over seven years , 2012 .

[25]  Yufeng Zhang,et al.  Theoretical and experimental analysis of the energy balance of extensive green roofs , 2010 .

[26]  Gary Grant,et al.  Directions in green roof research: A bibliometric study , 2013 .

[27]  J. Lorimer,et al.  Urban reconciliation ecology: the potential of living roofs and walls. , 2011, Journal of environmental management.

[28]  C.Y. Jim Effect of vegetation biomass structure on thermal performance of tropical green roof , 2011, Landscape and Ecological Engineering.

[29]  A. Refahi,et al.  Investigating the effective factors on the reduction of energy consumption in residential buildings with green roofs , 2015 .

[30]  R. T. Fernandez,et al.  Green roof stormwater retention: effects of roof surface, slope, and media depth. , 2005, Journal of environmental quality.

[31]  Kristin L. Getter,et al.  Solar radiation intensity influences extensive green roof plant communities , 2009 .

[32]  Joseph Carpenter,et al.  Life Cycle Analysis of a St. Louis Flat Roof Residential Retrofit for Improved Energy Efficiency , 2012 .

[33]  Reid R. Coffman,et al.  Green Roofs as Urban Ecosystems: Ecological Structures, Functions, and Services , 2007 .

[34]  I. S. Wichman,et al.  Seasonal heat flux properties of an extensive green roof in a Midwestern U.S. climate , 2011 .

[35]  A. Nardini,et al.  Influence of substrate depth and vegetation type on temperature and water runoff mitigation by extensive green roofs: shrubs versus herbaceous plants , 2011, Urban Ecosystems.

[36]  Pamela A. Matson,et al.  Integrated soil–crop system management for food security , 2011, Proceedings of the National Academy of Sciences.

[37]  Hao Niu,et al.  Scaling of economic benefits from green roof implementation in Washington, DC. , 2010, Environmental science & technology.

[38]  J. Clausen,et al.  Effect of a modular extensive green roof on stormwater runoff and water quality , 2011 .

[39]  L. Battaglia,et al.  Green Roof Systems as Sources or Sinks Influencing Heavy Metal Concentrations in Runoff , 2013 .

[40]  G. R. Johnson,et al.  Amending greenroof soil with biochar to affect runoff water quantity and quality. , 2011, Environmental pollution.

[41]  Ü. Mander,et al.  Rainwater runoff quantity and quality performance from a greenroof: The effects of short-term events , 2007 .

[42]  Chi‐Feng Chen,et al.  Performance evaluation and development strategies for green roofs in Taiwan: A review , 2013 .

[43]  T. Bauerle,et al.  Potential benefits of plant diversity on vegetated roofs: a literature review. , 2012, Journal of environmental management.

[44]  K. Vijayaraghavan,et al.  Design and development of green roof substrate to improve runoff water quality: plant growth experiments and adsorption. , 2014, Water research.

[45]  C.Y. Jim,et al.  Economic evaluation of green-roof environmental benefits in the context of climate change: The case of Hong Kong , 2015 .

[46]  Min Jung Lee,et al.  A pilot study to evaluate runoff quantity from green roofs. , 2015, Journal of environmental management.

[47]  A. R. Jarrett,et al.  STORMWATER MITIGATION AND SURFACE TEMPERATURE REDUCTION BY GREEN ROOFS , 2005 .

[48]  A. Herzele,et al.  A monitoring tool for the provision of accessible and attractive urban green spaces , 2003 .

[49]  Samuel Hassid,et al.  Developments in the residential energy sector in Israel , 2011 .

[50]  T. Emilsson,et al.  Vegetation development on extensive vegetated green roofs: Influence of substrate composition, establishment method and species mix , 2008 .

[51]  S. Morgan,et al.  Suspended Solids in and Turbidity of Runoff from Green Roofs , 2011, International journal of phytoremediation.

[52]  Virginia Stovin,et al.  Green roofs; building energy savings and the potential for retrofit , 2010 .

[53]  J. Aitkenhead-Peterson,et al.  Chemistry of growth medium and leachate from green roof systems in south-central Texas , 2011, Urban Ecosystems.

[54]  Shrikant Pandey,et al.  Experimental investigation on green roofs over buildings , 2013 .

[55]  R. Belarbi,et al.  Assessment of green roof thermal behavior: A coupled heat and mass transfer model , 2011 .

[56]  Michael E Barrett,et al.  The effect of roofing material on the quality of harvested rainwater. , 2011, Water research.

[57]  Colin R. Janssen,et al.  Bioavailability of zinc in runoff water from roofing materials. , 2002, Chemosphere.

[58]  C.Y. Jim,et al.  Theoretical evaluation of thermal and energy performance of tropical green roofs , 2011 .

[59]  N. Dunnett,et al.  Influence of vegetation composition on runoff in two simulated green roof experiments , 2008, Urban Ecosystems.

[60]  Wong Nyuk Hien,et al.  Study of thermal performance of extensive rooftop greenery systems in the tropical climate , 2007 .

[61]  R. Belarbi,et al.  A comprehensive study of the impact of green roofs on building energy performance , 2012 .

[62]  N. Dunnett,et al.  The relationship between percentage of organic matter in substrate and plant growth in extensive green roofs , 2011 .

[63]  C.Y. Jim,et al.  Weather effect on thermal and energy performance of an extensive tropical green roof , 2012 .

[64]  J. MacIvor,et al.  Decoupling factors affecting plant diversity and cover on extensive green roofs. , 2013, Journal of environmental management.

[65]  D. Rowe,et al.  RUNOFF WATER QUANTITY AND QUALITY FROM GREEN ROOF SYSTEMS , 2004 .

[66]  Evyatar Erell,et al.  Evaluation of the energy performance and irrigation requirements of extensive green roofs in a water-scarce Mediterranean climate , 2014 .

[67]  L. Lanza,et al.  The Role of Green Roofs as a Source/sink of Pollutants in Storm Water Outflows , 2013, Water Resources Management.

[68]  P. Principi,et al.  Green roof energy and water related performance in the Mediterranean climate , 2010 .

[69]  Yanling Li,et al.  Green roofs against pollution and climate change. A review , 2014, Agronomy for Sustainable Development.

[70]  D. Pearlmutter,et al.  Performance analysis of a simple roof cooling system with irrigated soil and two shading alternatives , 2008 .

[71]  Brian E. Haggard,et al.  Evaluation of Nutrient Concentrations in Runoff Water from Green Roofs, Conventional Roofs, and Urban Streams , 2012 .

[72]  Thomas Young,et al.  Importance of different components of green roof substrate on plant growth and physiological performance , 2014 .

[73]  M. Simmons,et al.  Green roofs are not created equal: the hydrologic and thermal performance of six different extensive green roofs and reflective and non-reflective roofs in a sub-tropical climate , 2008, Urban Ecosystems.

[74]  Shixiao Yu,et al.  Heavy metals in plants and substrate from simulated extensive green roofs , 2013 .

[75]  L. Bengtsson,et al.  The influence of extensive vegetated roofs on runoff water quality. , 2006, The Science of the total environment.

[76]  Yan-Chyuan Shiau,et al.  Application of coastal vegetation to green roofs of residential buildings in Taiwan , 2015, Artificial Life and Robotics.

[77]  Bill Hunt,et al.  A North Carolina Field Study to Evaluate Greenroof Runoff Quantity, Runoff Quality, and Plant Growth , 2003 .

[78]  Mattheos Santamouris,et al.  Experimental and numerical analysis of the energy performance of a large scale intensive green roof system installed on an office building in Athens , 2016 .

[79]  François Garde,et al.  Performance Evaluation of Green Roof for Thermal Protection of Buildings In Reunion Island , 2012 .

[80]  Chloe J. Molineux,et al.  Characterising alternative recycled waste materials for use as green roof growing media in the U.K. , 2009 .

[81]  R. Lamberts,et al.  Investigation of green roof thermal performance in temperate climate: A case study of an experimenta , 2011 .

[82]  Zhi-hua Wang,et al.  Hydrometeorological determinants of green roof performance via a vertically-resolved model for heat and water transport , 2013 .

[83]  R. Balasubramanian,et al.  A field study to evaluate runoff quality from green roofs. , 2012, Water research.

[84]  Xinhua Zhao,et al.  A field study to evaluate the impact of different factors on the nutrient pollutant concentrations in green roof runoff. , 2013, Water Science and Technology.

[85]  Ü. Mander,et al.  Greenroof potential to reduce temperature fluctuations of a roof membrane: A case study from Estonia , 2009 .

[86]  Adam J. Bates,et al.  Vegetation development over four years on two green roofs in the UK , 2013 .

[87]  M. Antrop Landscape change and the urbanization process in Europe , 2004 .

[88]  G. Vanoli,et al.  Green roofs in European climates. Are effective solutions for the energy savings in air-conditioning? , 2013 .

[89]  U. Berardi,et al.  State-of-the-art analysis of the environmental benefits of green roofs , 2014 .

[90]  J. Lundholm,et al.  Water uptake in green roof microcosms: Effects of plant species and water availability , 2008 .

[91]  Kristin L. Getter,et al.  Quantifying the effect of slope on extensive green roof stormwater retention , 2007 .

[92]  Matt A. Limmer,et al.  Nine-Month Evaluation of Runoff Quality and Quantity from an Experiential Green Roof in Missouri, USA , 2015 .