Green roofs for a drier world: Effects of hydrogel amendment on substrate and plant water status

Tadeja Savi (Corresponding Author), Maria Marin, David Boldrin, Guido Incerti, Sergio Andri, Andrea Nardini

Research output: Contribution to journalArticle

26 Citations (Scopus)

Abstract

Climate features of the Mediterranean area make plant survival over green roofs challenging, thus calling for research work to improve water holding capacities of green roof systems. We assessed the effects of polymer hydrogel amendment on the water holding capacity of a green roof substrate, as well as on water status and growth of Salvia officinalis. Plants were grown in green roof experimental modules containing 8 cm or 12 cm deep substrate (control) or substrate mixed with hydrogel at two different concentrations: 0.3 or 0.6%. Hydrogel significantly increased the substrate's water content at saturation, as well as water available to vegetation. Plants grown in 8 cm deep substrate mixed with 0.6% of hydrogel showed the best performance in terms of water status and membrane integrity under drought stress, associated to the lowest above-ground biomass. Our results provide experimental evidence that polymer hydrogel amendments enhance water supply to vegetation at the establishment phase of a green roof. In particular, the water status of plants is most effectively improved when reduced substrate depths are used to limit the biomass accumulation during early growth stages. A significant loss of water holding capacity of substrate-hydrogel blends was observed after 5 months from establishment of the experimental modules. We suggest that cross-optimization of physical–chemical characteristics of hydrogels and green roof substrates is needed to improve long term effectiveness of polymer-hydrogel blends.
Original languageEnglish
Pages (from-to)467-476
Number of pages11
JournalScience of the Total Environment
Volume490
Early online date24 May 2014
DOIs
Publication statusPublished - 15 Aug 2014

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Keywords

  • Polymer hydrogel
  • Substrate depth
  • Water availability
  • Water status
  • Drought stress
  • Salvia offcinalis

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