WaterRounds TomatoRound RoseRounds ShrubRounds TreeRounds | Deep Root Watering | New Gardening Products
WaterRounds TomatoRound RoseRounds ShrubRounds TreeRounds | Deep Root Watering | New Gardening Products
Water. It is our single most valuable natural resource. As the world抯 population grows, our need for water continues to increase. Landscaping accounts for 50% of residential water usage and a significant amount of that water never makes it to the plants and trees that need it most. Wasteful water runoff, hillside erosion and improperly installed irrigation systems contribute to the growing problem.Enter Water Rounds. WaterRounds Manufacturing has introduced an innovative product that channels water whe to the deep root zone. WaterRounds can be used in conjunction with common irrigation systems or with a garden hose. The nonerosive water basin allows water to slowly penetrate the soil three inches deep before flowing horizontally to the plant抯 drip line. Because water no longer travels along the surface, evaporation is drastically reduced and valuable water is saved. The brilliance of this unit is found in its ability to not only increase the amount of water a plant receives through deep-root zone saturation, but also in its ability to conserve water at the same time. The unique design of this non-erosive water basin makes it simple to install. The durable teeth cut easily into the soil and the interior V-Groove keeps the basin securely in place. Not only do WaterRounds produce healthier, larger trees, shrubs, flowers, vegetables and herbs, they also prevent invasive weed growth and beautify any garden or lawn as an attractive landscape border. As an added benefit WaterRounds come in three attractive colors and three different sizes to meet all of your gardening and landscaping needs.
Patent Pendingturkey rose ocen deep water_百度知道
turkey rose ocen deep water
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, September 2013, Pages 1–8
Isolation By Distance (IBD) signals in the deep-water rose shrimp Parapenaeus longirostris (Lucas, 1846) (Decapoda, Panaeidae) in the Mediterranean Sea, , ,
Dept. STEBICEF, University of Palermo, Via Archirafi 18, 90123 Palermo, Italy&This Paper considers the genetic architecture of the deep-water rose shrimp Parapenaeus longirostris in the Mediterranean Sea.&Analyses carried out with mtDNA and AFLP markers.&Results revealed an &Isolation by Distance& model and evidence of the &Levantine isolation&.The identification of boundaries of genetic demes is one of the major goals for fishery management, and few Mediterranean commercial species have not been studied from a genetic point of view yet. The deep-water rose shrimp Parapenaeus longirostris (Lucas, 1846) is one of the most important components of commercial landings in Mediterranean, its fishery aspects have received much attention, regrettably without any concern for the genetic architecture of its populations. The population structure in the central and eastern Mediterranean Sea (captures from six Italian and two Greek landings) has been analysed on the basis of surveys carried out with mitochondrial and AFLP markers. Data revealed the presence of a gradual discrepancy along a west&east axis. This species, occurring mainly at a depth of between 100 and 400&m, is not strongly confined in isolated demes, but it demonstrates an &Isolation By Distance& model, within the Mediterranean Sea, which includes geographical areas with a some degree of isolation. The role of hydrodynamic forces, such as currents, water fronts, and a further evidence of the &Levantine isolation& within Mediterranean basin is shown.KeywordsParapenaeus longirostris; AFLP; mtDNA; Isolation By Distance; Mediterranean Sea
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