Photosynthesis and global warming relationship advice

High CO2 levels cause plants to thicken their leaves, could worsen climate change effects

Answer: Global warming is potentially due to higher level of carbon dioxide in the atmosphere. This CO2 retains and avoids refl view the full answer. The reverse way from your question, (the effect of photosynthesis on global warming) is the obvious way that plants, through photosynthesis, he here are correct as far as they go, but they are one-way, and the relationship is two-way. The production and consumption of fossil fuels have increased greenhouse gases in the atmosphere and contributed to global warming.

The process is therefore critical to mitigate the effects of GHG. Plants have the ability to absorb and in turn sequester enormous amounts of carbon over the long term. Much of the excess atmospheric CO2 is the result from the burning of fossil fuels. In it was estimated nine billion tonnes of CO2 are annually released in to the atmosphere from fossil fuel consumption.

This figure continues to grow. Critical to reducing carbon is the natural process of photosynthesis in plants. Old-growth forests containing large dominant species of perennial trees are critical to reducing the effects of climate change because they are able to absorb, capture and store enormous amounts of carbon.

For example, a tree in a primary or old-growth forest has the capacity, in its lifetime, to absorb CO2 equivalent to the carbon released by a car driven 42, kilometres. Unfortunately, the destruction of old-growth forests for land-clearing and commercial and sometimes illegal purposes is continuing globally.

Photosynthesis and its Role in Climate Change and Soil Regeneration

In some parts of the world the loss rates are increasing. Not only does this plant loss result in less photosynthesis, the deforestation releases the stored carbon to the atmosphere. Accordingly, some governments are planning and implementing the inclusion of plant based strategies to ameliorate the effects of climate change.

These activities include tree planting, landscape greening programmes, agroforestry and regenerating native grasslands and grassy woodlands.

High CO2 levels cause plants to thicken their leaves, could worsen climate change effects

Large-scale operations of this kind are necessary in order to tap into photosynthesis as an agent for climate change reduction. Photosynthesis and its Role in Soil Regeneration Soil regeneration, broadly defined, focuses on applying processes that change the structure of soil, to enable a quantitative and qualitative improvement of top soil. Many of the associated practices enhance soil health by increasing soil organic carbon.

The presence of soil organic carbon promotes nutrient availability, water retention and the movement of water through the soil. Soil regenerative strategies comprise a range of restorative actions and mechanisms that are normally applied in unison and rarely singularly. An added strategy becoming increasingly common in soil-regeneration practice is to incorporate and integrate managed programmes of rotational cattle grazing designed to stimulate roots and development of sub-soil biological communities as well as producing green manure or growing plants which are ploughed back into the soil.

The Greenhouse Effect & Photosynthesis | Sciencing

The erosion is being caused through a regime that includes extensive mono-cropping over long periods of time, over-tillage and in some countries fireto manage crop residue and associated problems such as pest and weed infestation.

The reliance on harmful nitrate and phosphorus-based synthetic fertilisers and pesticides combined with their long-term residual consequence of destroying the soil, compound the mechanical affects, all of which lead to erosion. At current rates, Australia n scientists concluded that 40 per cent of topsoil is degraded or eroded away as a result of poor and unsustainable farming methods that weaken soils and remove carbon.

Soil loss is currently between 10 and 40 times the rate at which it can naturally regenerate. The presence of soil-borne microorganisms that aid the process of decomposition is also fundamentally important. A key to soil regeneration is the establishment of plant communities. Plants are vital to soil health because as plants grow their roots penetrate and bind the soil.

The binding enables and facilitates microbial action that further adds to the soil structure, thus providing water retention and the exchange of nutrients and naturally occurring chemicals which promote plant growth and development and reduce disease. Importantly, during the photosynthesis process carbon is added sequestered in the soil and, when the plant dies, nutrients are introduced through decomposition of roots, stems and leafy materials.

The soil regeneration process can take many years. The time period will depend on the environmental conditions and the degree to which the soil has been degraded. However, human activity intensifies the process, in which Earth absorbs some energy from the sun in its atmosphere and reflects the rest back toward space.

The production and consumption of fossil fuels have increased greenhouse gases in the atmosphere and contributed to global warming.

Conserving energy is one way to slow this warming trend, and planting trees is another. Environmental Protection Agency reports that carbon dioxide is the most abundant greenhouse gas in our atmosphere, other gases such as methane and nitrous oxide also contribute to the greenhouse effect.

photosynthesis and the effect of global warming by Alba Serrano on Prezi

All greenhouse gases trap heat in the atmosphere, which warms Earth's surface. Burning fossil fuels to produce energy is the primary source of carbon dioxide emissions in the U. The most common fossil fuels include coal, natural gas and fuel oil. Energy production, transportation and industrial activity all contribute significantly to the emission of carbon dioxide and other greenhouse gases. Photosynthesis Plants convert carbon dioxide and water into sugar and oxygen through the process of photosynthesis.

Plants absorb carbon dioxide from the atmosphere during photosynthesis.

Fighting Climate Change with Photosynthesis - Mark Hertsgaard