Cladonia lichens on extensive green roofs: evapotranspiration, substrate temperature, and albedo
Green roofs are constructed ecosystems that provide ecosystem services in urban environments. Shallow substrate green roofs subject the vegetation layer to desiccation and other environmental extremes, so researchers have evaluated a variety of stress-tolerant vegetation types for green roof applica...
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| Published in | F1000 research Vol. 2; p. 274 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
England
F1000 Research Ltd
2013
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2046-1402 2046-1402 |
| DOI | 10.12688/f1000research.2-274.v1 |
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| Abstract | Green roofs are constructed ecosystems that provide ecosystem services in urban environments. Shallow substrate green roofs subject the vegetation layer to desiccation and other environmental extremes, so researchers have evaluated a variety of stress-tolerant vegetation types for green roof applications. Lichens can be found in most terrestrial habitats. They are able to survive extremely harsh conditions, including frequent cycles of desiccation and rehydration, nutrient-poor soil, fluctuating temperatures, and high UV intensities. Extensive green roofs (substrate depth <20cm) exhibit these harsh conditions, making lichens possible candidates for incorporation into the vegetation layer on extensive green roofs. In a modular green roof system, we tested the effect of
Cladonia
lichens on substrate temperature, water loss, and albedo compared to a substrate-only control. Overall, the
Cladonia
modules had significantly cooler substrate temperatures during the summer and significantly warmer temperatures during the fall. Additionally, the
Cladonia
modules lost significantly less water than the substrate-only control. This implies that they may be able to benefit neighboring vascular plant species by reducing water loss and maintaining favorable substrate temperatures. |
|---|---|
| AbstractList | Green roofs are constructed ecosystems that provide ecosystem services in urban environments. Shallow substrate green roofs subject the vegetation layer to desiccation and other environmental extremes, so researchers have evaluated a variety of stress-tolerant vegetation types for green roof applications. Lichens can be found in most terrestrial habitats. They are able to survive extremely harsh conditions, including frequent cycles of desiccation and rehydration, nutrient-poor soil, fluctuating temperatures, and high UV intensities. Extensive green roofs (substrate depth <20cm) exhibit these harsh conditions, making lichens possible candidates for incorporation into the vegetation layer on extensive green roofs. In a modular green roof system, we tested the effect of
Cladonia
lichens on substrate temperature, water loss, and albedo compared to a substrate-only control. Overall, the
Cladonia
modules had significantly cooler substrate temperatures during the summer and significantly warmer temperatures during the fall. Additionally, the
Cladonia
modules lost significantly less water than the substrate-only control. This implies that they may be able to benefit neighboring vascular plant species by reducing water loss and maintaining favorable substrate temperatures. Green roofs are constructed ecosystems that provide ecosystem services in urban environments. Shallow substrate green roofs subject the vegetation layer to desiccation and other environmental extremes, so researchers have evaluated a variety of stress-tolerant vegetation types for green roof applications. Lichens can be found in most terrestrial habitats. They are able to survive extremely harsh conditions, including frequent cycles of desiccation and rehydration, nutrient-poor soil, fluctuating temperatures, and high UV intensities. Extensive green roofs (substrate depth <20cm) exhibit these harsh conditions, making lichens possible candidates for incorporation into the vegetation layer on extensive green roofs. In a modular green roof system, we tested the effect of Cladonia lichens on substrate temperature, water loss, and albedo compared to a substrate-only control. Overall, the Cladonia modules had significantly cooler substrate temperatures during the summer and significantly warmer temperatures during the fall. Additionally, the Cladonia modules lost significantly less water than the substrate-only control. This implies that they may be able to benefit neighboring vascular plant species by reducing water loss and maintaining favorable substrate temperatures. Green roofs are constructed ecosystems that provide ecosystem services in urban environments. Shallow substrate green roofs subject the vegetation layer to desiccation and other environmental extremes, so researchers have evaluated a variety of stress-tolerant vegetation types for green roof applications. Lichens can be found in most terrestrial habitats. They are able to survive extremely harsh conditions, including frequent cycles of desiccation and rehydration, nutrient-poor soil, fluctuating temperatures, and high UV intensities. Extensive green roofs (substrate depth <20cm) exhibit these harsh conditions, making lichens possible candidates for incorporation into the vegetation layer on extensive green roofs. In a modular green roof system, we tested the effect of Cladonia lichens on substrate temperature, water loss, and albedo compared to a substrate-only control. Overall, the Cladonia modules had significantly cooler substrate temperatures during the summer and significantly warmer temperatures during the fall. Additionally, the Cladonia modules lost significantly less water than the substrate-only control. This implies that they may be able to benefit neighboring vascular plant species by reducing water loss and maintaining favorable substrate temperatures.Green roofs are constructed ecosystems that provide ecosystem services in urban environments. Shallow substrate green roofs subject the vegetation layer to desiccation and other environmental extremes, so researchers have evaluated a variety of stress-tolerant vegetation types for green roof applications. Lichens can be found in most terrestrial habitats. They are able to survive extremely harsh conditions, including frequent cycles of desiccation and rehydration, nutrient-poor soil, fluctuating temperatures, and high UV intensities. Extensive green roofs (substrate depth <20cm) exhibit these harsh conditions, making lichens possible candidates for incorporation into the vegetation layer on extensive green roofs. In a modular green roof system, we tested the effect of Cladonia lichens on substrate temperature, water loss, and albedo compared to a substrate-only control. Overall, the Cladonia modules had significantly cooler substrate temperatures during the summer and significantly warmer temperatures during the fall. Additionally, the Cladonia modules lost significantly less water than the substrate-only control. This implies that they may be able to benefit neighboring vascular plant species by reducing water loss and maintaining favorable substrate temperatures. |
| Author | Heim, Amy Lundholm, Jeremy |
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| CitedBy_id | crossref_primary_10_1016_j_apsoil_2018_08_007 crossref_primary_10_1016_j_baae_2021_07_010 crossref_primary_10_1639_0747_9859_36_4_139 crossref_primary_10_1016_j_ecoleng_2020_105728 crossref_primary_10_3390_atmos12030382 crossref_primary_10_1080_15230430_2020_1778890 crossref_primary_10_1080_15659801_2015_1091190 |
| Cites_doi | 10.1071/SR9940389 10.1016/j.fbr.2009.10.003 10.1016/j.landurbplan.2010.04.009 10.1007/s10531-008-9539-5 10.1016/j.ecoleng.2010.10.004 10.1016/j.ufug.2004.07.001 10.1017/S0024282967000398 10.1016/S0038-0717(00)00143-7 10.21273/HORTSCI.41.5.1276 10.1016/j.funbio.2013.04.007 10.1017/S0269915X05002016 10.1016/j.ecoleng.2011.06.025 10.1139/b83-095 10.1007/978-3-642-56475-8_21 |
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| Title | Cladonia lichens on extensive green roofs: evapotranspiration, substrate temperature, and albedo |
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