Sentences with phrase «vegetative greening»
This morning the following piece («On CO2, Murdoch misses forest for the trees ``, The Age) appeared in Australia indicating that the effects of vegetative greening are offset by increases in atmospheric CO2, ergo Mr. Murdoch, who tweeted the article, had overreached by pointing out this piece of the scientific puzzle.
https://fabiusmaximus.com/
The latest example to demonstrate such comes from a paper recently published in the journal Scientific Reports, where Lu et al. (2016) investigated the role of atmospheric CO2 in causing the satellite - observed vegetative greening of the planet that has occurred over the past few decades (1960 - 2015).
Articles sometimes examine how vegetative greening and blackening are causing the Arctic ice cap to melt faster — involving a...
A vegetative green roof is a highly engineered living system, and living systems need care and maintenance.
A successful vegetative green roof starts with good design.
Not exact matches
DeLeón Tequila also employs a slow chill filtration that removes fatty acids that produce heavy vegetative notes and cover up DeLeón's defining lighter fruity notes, fresh green agave notes and warm spice notes.
Grafting tomatoes with our Field Foreman Dan Kemper For root stock, Dan selected two green cherry tomatoes, Fortamino and Estamino, which promote hearty and aggressive vegetative growth, and grafted it to a traditional beef steak tomato, Caiman.
The lush green vegetative ecological wonder that is the Mambilla plateau, in north east Taraba state, turned red as it became the latest scene...
Moreover, it is called the «green cancer» due to the negative effects it has on the environment as well as its invasive characteristics: rapid growth, short generation time, its ability to both reproduce alone and vegetative propagation, and profuse production of seeds which are easily spread.
yeah... maybe its time to acknowledge the positive effects of climate change... less death in the winter, longer growing seasons... increased vegetative cover for this good green earth, and stronger, healthier more productive plants.
5.1 This practice addresses performance characteristics for vegetative (green) roof systems with respect to the dead load and transient water load of the entire vegetative (green) roof system.
1.4 This practice does not address point or line loads associated with architectural elements that are not essential components of a particular vegetative (green) roof system.
ASTM E2397 / E2397M - 15, Standard Practice for Determination of Dead Loads and Live Loads Associated with Vegetative (Green) Roof Systems, ASTM International, West Conshohocken, PA, 2015, www.astm.org
ASTM E2399 / E2399M - 15, Standard Test Method for Maximum Media Density for Dead Load Analysis of Vegetative (Green) Roof Systems, ASTM International, West Conshohocken, PA, 2015, www.astm.org
Components that are typically encountered in vegetative (green) roof systems include: membranes, non-absorptive plastic sheet components, metallic layers, fabrics, geocomposite drain layers, synthetic reinforcing layers, cover / recover boards, insulation materials, growth media, granular drainage media, and plant materials.
1.3 This practice also addresses the weight of the vegetative (green) roof system under two conditions: (1) weight under drained conditions after new water additions by rainfall or irrigation have ceased (this includes the weight of retained water and captured water), and (2) weight when rainfall or irrigation is actively occurring and the drain layer is completely filled with water.
This test demonstrated the value of full vegetative cover as a means of stabilizing the green roof system.
Green Roofs for Healthy Cities (GRHC) is a membership - based industry association developing the green (vegetative) roof and wall industry in North AmeGreen Roofs for Healthy Cities (GRHC) is a membership - based industry association developing the green (vegetative) roof and wall industry in North Amegreen (vegetative) roof and wall industry in North America.
In consequence of these two benefits, Lu et al. hypothesized that rising atmospheric CO2 is playing a significant role in the observed greening, especially in moisture - limited areas where soil water content is a limiting factor in vegetative growth and function.
5.2.1 Water capture is also useful in assessing irrigation requirements for vegetative (green) roof designs.
1.1 This test method covers a procedure for determining the water permeability of coarse granular materials used in the drainage layers of vegetative (green) roof systems.
This will also allow the performance of granular drainage layers in vegetative (green) roof systems to be compared directly to alternative components, such as geocomposite drain layers.
Green roofs are made up of a top vegetative layer that grows in an engineered soil, which sits on top of a drainage layer.
5.2 Determining these performance characteristics of vegetative (green) roof systems provides information to facilitate assessment of the performance of one vegetative (green) roof system relative to one another.
5.2 Determining the performance characteristics of vegetative (green) roof systems provides information to facilitate the assessment of related engineering aspects of the facility.
5.2.2 Information about the unit media retention volume is required to predict the quantity of material that will be required to construct a vegetative (green) roof with a specified total thickness.
1.2 This test method addresses water permeability under the low - head conditions that typify horizontal flow in vegetative (green) roof applications.
1.1 This test method covers the determination of the water and media retention of synthetic drains layers used in vegetative (green) roof systems.
ASTM E2398 / E2398M - 15a, Standard Test Method for Water Capture and Media Retention of Geocomposite Drain Layers for Vegetative (Green) Roof Systems, ASTM International, West Conshohocken, PA, 2015, www.astm.org
E2397 Practice for Determination of Dead Loads and Live Loads Associated with Vegetative (Green) Roof Systems
5.1 Determining these performance characteristics of vegetative (green) roof systems provides information to facilitate the assessment of related engineering aspects of the facility.
New Jersey Hospitals Going Green Hospitals across New Jersey are adding things like «vegetative roofs, solar panels, cogeneration units, giant sun - deflecting louvers, [and] non-toxic paints» to their green repertoire to both improve the indoor health of these old buildings, as well as improve the mental health of patients and cut down on electric bGreen Hospitals across New Jersey are adding things like «vegetative roofs, solar panels, cogeneration units, giant sun - deflecting louvers, [and] non-toxic paints» to their green repertoire to both improve the indoor health of these old buildings, as well as improve the mental health of patients and cut down on electric bgreen repertoire to both improve the indoor health of these old buildings, as well as improve the mental health of patients and cut down on electric bills.
Highlights of the building's sustainability achievements include an Energy Star rating of 93, which places the building in the top 7 percent of similar buildings in terms of energy efficiency; use of highly - efficient plumbing fixtures providing water savings of approximately 17 percent; modifications to the building's irrigation system provide a 74 percent reduction in water use for irrigation, as well as a dedicated meter to monitor ongoing performance; recycling efforts resulting in a 45 percent diversion rate of recyclables from landfill of ongoing consumable waste and a 100 percent diversion rate of durable goods from entering the waste stream; an integrated pest management plan incorporating non-toxic measures for animal and vegetative pest control; and a green cleaning pProgram, implemented as part of a comprehensive building - wide indoor air quality program.