Sentences with phrase «from deeper soil»
Not exact matches
The seed fell upon this loosened soil in its deepest crevice at which point, unexplainable to me, a tear drop fell from the sky above borrowing that seed within its new home whilst giving it its birth.
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But he was unlike the Renaissance man in that his own personal problems lent a bitter urgency, a sense of emotional desperation and intensity and determination to all he said, eyes flashing, calm voice firmly enunciating, occasional smile revealing a man still with roots deep in the Saxon soil from which he continued to draw a stream of homely metaphors and coarse comment.
Schweiger Vineyards 2006 Cabernet Sauvignon This remarkable Estate grown and bottled Cabernet Sauvignon was made from grapes grown in deep volcanic soil from 16 - 24 year old vines.
The deep prolific soils are incredibly diverse from valley floor, to benchland up to high mountain elevation.
Côtes du Rhône Crus will host «A Deep Dive Into the Grenache Variety of the Southern Rhône Crus» and «Three Adjacent AOC From the Northern Rhône (Saint - Péray, Cornas and Saint - Joseph): Different Expressions From the Same Granite Soil.»
I found there is nothing more therapeutic than crouching down amongst all that green, plunging my hands deep into the soil, and pulling out weeds from the root.
Ecology and Environment will test soils and beach floor sediment at least 10 - feet deep and determine if any dangerous substances are entering the water from a nearby stormwater drain south of the beach.
The remaining soil organic matter is not — as is frequently the case with forest soil — mostly present as «forest floor» in the surface layer, but lies deeper underground where it is better protected from humus - degrading microorganisms.
To their surprise, the researchers found that the samples from the thermokarst sites had lower levels of colored dissolved organic matter than did reference sites, suggesting that the carbon in the deeper soils exposed by thermokarst failure is significantly different from the carbon draining from the topmost, active layer of the permafrost, the team reports in the Proceedings of the National Academy of Sciences.
The mixing also affects soil pH: the best - known earthworm in central Europe, the Lumbricus terrestris, carries alkaline soil upwards from deeper layers.
These root systems are a «below ground safety net» that stores carbon and nitrogen, prevents erosion and pulls up water from deep in the soil.
When he tested soils from the experimental plots, he saw soil organic carbon concentrations rise gradually with increases in nitrogen fertilization at soil depths from 0 to 6 inches, although not at deeper ones.
This finding was made from data collected by the 2001: Mars Odyssey Gamma Ray Spectrometer, or GRS, which is sensitive enough to detect the composition of Mars soil up to one - half meter deep.
A good soil also remains structurally sound deeper in the ground where pressure from above is higher.
«It's possible that the mobility of charcoal on the landscape and it's tendency to become concentrated in low - lying spots could make it more likely the charcoal from wildfires becomes buried and incorporated deep in soils and that these deposits act as a kind of charcoal reservoir that releases charcoal into the soil over long time spans.»
«You go from having shallow soil that is between half a meter and two meters deep, to something that is like a soil that is a hundred meters deep.
«Visible or near - infrared bands typically used for crop monitoring are mainly sensitive to the upper canopy, but provide little information about deeper vegetation and soil conditions affecting crop water status and yield,» says John Kimball from University of Montana, a long - term collaborator with Guan and a coauthor of the paper.
The microbe's habitat extends from the deepest parts of a wetland, which are devoid of oxygen, all the way to surface soils.
Tropical trees act as enormous water pumps, drawing gallons and gallons of water up from deep in the soil.
It is principally due to the transfer of the seismic motion from hard deep soils to soft superficial soils and to effects of seismic energy focalization owing to typical geometrical setting of the deposits.
Evidence from carbon isotope records from both soil carbonates [18]--[20] and biomarkers (n - alkanes) extracted from deep - sea sediments [21] provide clear evidence of a progressive vegetation shift from C3 (∼ trees and shrubs) to C4 (∼ tropical grasses) plants during the Plio - Pleistocene.
Geochemistry — the science of the reactions in the atmosphere, the oceans, the soil and deep underground — affects everything from recovering oil to producing food.
Even more crustal minerals were formed by plate tectonics with the help of lubricating ocean water, atmospheric oxygen from the successful development of photosynthetic microbes, and land - based lichens (of algae and fungi) and mosses which were followed by deep - rooted plants that hastened the erosion and weathering of surface rocks with the help of biochemical action and the creation of soils as well as new clay minerals.
If you are a gardening buff, dandelion helps bring nutrients from the deep dirt to the top of the soil.
Growing our grasses through a cold winter forces the roots to grow deeper, away from the frost line, in order to soak up maximum nutrients from the soil.
Below the soil surface, maca has a fleshy, underground root, known as the hypocotyl, which grows seven inches (18 cm) deep and can reach up to 3.5 inches (9 cm) in diameter, and from which most of the plant's culinary and medicinal preparations are made.
However, in the case of sugar cane the plants have deep roots, and are able to absorb high quantities of nutrient from the soil.
That shallower root system inherently absorbs less micro-nutrients from the soil column compared to organically raised plants that are forced to have deeper, more extensive root systems to obtain all of the nutrients the plant needs.
However, because sugar cane plants have deep roots, and are able to absorb high quantities of nutrient from the soil, the molasses is very rich in minerals and vitamins.
It expanded and collapsed and sweated and snorted, a ribbed joinery articulating beneath him as though the surface of the world had sprung from engines hot and deep beneath the soil and rock.
You can also try embedding wooden chopsticks, pinecones, or sticks with dull points deep into the soil with the tops exposed eight inches apart, this will act as an obstacle and deter cats from this area.
NDzuti Safari Camp is situated in The Maseke Game Reserve which is part of the Greater Kruger National Park, a diverse area with lovely views from rocky outcrops, Olifants River frontage, and deep red soils supporti...
Suffering from combat fatigue and spread out on enemy soil, US Forces have fought their way deep into Europe, driving back the German war machine.
This outdoor sculpture consists of a deep hole in the ground of a park in Kobe, beside which is a perfect cylinder formed from the soil extracted from that hole — so, you might say, an exercise in minimalist land art.
Crucially, the green tag attached to kenaf is gaining more importance as people, companies and governments realize that the kenaf crop removes substantial amounts of CO2 and NO2 from the atmosphere and three to five times faster than forests with its deep roots improving the soil.
«The larger estimate is due to the inclusion of processes missing from current models and new estimates of the amount of organic carbon stored deep in frozen soils,» co-author Benjamin Abbott, a University of Alaska Fairbanks graduate student, explained in a press release.
The release of huge quantities of previously stored «multiyear / deep layer» carbon deposite and equivalent greenhouse gases (CO2 / CH4 / N2O, from soil and water) can act like a trigger to boot the earth systems.
Type 2 results, even from global models used in a prediction mode, still retain real world information in the atmosphere (such as from long wave jet stream patterns), as well as sea surface temperatures, deep soil moisture, and other climate variables that have long term persistence.
KR @ 239, thank you again though your reply appears limited — volcanoes are never a good example but possible CO2 sources from deep oceanic turnover, bacteria, soils, methane breakdown, reduced phytoplankton might be quite significant if we assume the mass balance equation to cover a range of variables and a range of fluxes over a period of time.
26 Sun Stepped Art Aerosols Greenhouse gases Warming from decrease Cooling from increase CO 2 removal by plants and soil organisms CO 2 emissions from land cleaning, fires, and decay Heat and CO 2 removal Heat and CO 2 emissions Ice and snow cover Natural and human emissions Land and soil biotoa Long - term storage Deep ocean Shallow ocean Troposphere Fig. 20 - 6, p. 469
25 Fig. 20 - 6, p. 469 Troposphere Cooling from increase Aerosols Warming from decrease Green - house gases CO2 removal by plants and soil organisms CO2 emissions from land clearing, fires, and decay Heat and CO2 emissions Heat and CO2 removal Deep ocean Long - term storage Land and soil biotoa Natural and human emissions Shallow ocean Sun Ice and snow cover
36 Cut fossil fuel use (especially coal) Solutions Global Warming Prevention Cleanup Cut fossil fuel use (especially coal) Remove CO2 from smoke stack and vehicle emissions Shift from coal to natural gas Store (sequester) CO2 by planting trees Improve energy efficiency Sequester CO2 deep underground Shift to renewable energy resources Sequester CO2 in soil by using no - till cultivation and taking cropland out of production Transfer energy efficiency and renewable energy technologies to developing countries Reduce deforestation Figure 20.14 Solutions: methods for slowing atmospheric warming during this century.
51 Fig. 20 - 14, p. 481 Cut fossil fuel use (especially coal) Shift from coal to natural gas Improve energy efficiency Shift to renewable energy resources Transfer energy efficiency and renewable energy technologies to developing countries Reduce deforestation Use more sustainable agriculture and forestry Limit urban sprawl Reduce poverty Slow population growth Remove CO 2 from smoke stack and vehicle emissions Store (sequester) CO2 by planting trees Sequester CO 2 deep underground Sequester CO 2 in soil by using no - till cultivation and taking cropland out of production Sequester CO 2 in the deep ocean Repair leaky natural gas pipelines and facilities Use animal feeds that reduce CH 4 emissions by belching cows Solutions Global Warming PreventionCleanup
59 down from rig for deep ocean disposal Abandoned oil field Crop field Spent oil reservoir is used for Crop field Tanker delivers CO2 from plant to rig Coal power plant Oil rig Tree plantation CO2 is pumped down from rig for deep ocean disposal Abandoned oil field Crop field Switchgrass CO2 deposit CO2 is pumped down to reservoir through abandoned oil field Figure 20.15 Solutions: methods for removing carbon dioxide from the atmosphere or from smokestacks and storing (sequestering) it in plants, soil, deep underground reservoirs, and the deep ocean.
Solutions: methods for removing carbon dioxide from the atmosphere or from smokestacks and storing (sequestering) it in plants, soil, deep underground reservoirs, and the deep ocean.
One example of this phenomenon is that condensation can occur on the inner face of the lower portions of wall during the spring, if exterior dewpoints are rising but the deep soil is still cool from the winter.
With its deep roots descending into the underground rock, the tree provides protection to the people by stabilising the soil from landslides in the steep highlands.
Through rooflite intensive and its associated soil systems, which are exclusively available from rooflite, designers have more options and flexibility to consider deep applications on green roofs.
Above: A poster from the Conservation Research Institute shows that native plants can have deep root systems, helping to lock carbon in soils.
44 Cut fossil fuel use (especially coal) Solutions Global Warming Prevention Cleanup Cut fossil fuel use (especially coal) Remove CO2 from smoke stack and vehicle emissions Shift from coal to natural gas Store (sequester) CO2 by planting trees Improve energy efficiency Sequester CO2 deep underground Shift to renewable energy resources Sequester CO2 in soil by using no - till cultivation and taking cropland out of production Transfer energy efficiency and renewable energy technologies to developing countries Figure 20.14 Solutions: methods for slowing atmospheric warming during this century.