Effects of Hoeing on Standing Crops that Reduce the yield

Hoeing is big issue near farmer to remove the weeds, soil aeration, nitrogen fixing and fertility restoration in standing crops. But on the other hand some factors are studied by the approval of experiments which reduced the plant yield i.e

It cut the adventitious roots- they are the fibrous side root system which take up phosphorus, fix the nitrogen and other macro and micro nutrients from soil which support the plant for growth and development.

When fibrous roots system damaged then plant only depend on main root (tap root). Applicable nutrients are only available on upper soil surface, so plant cannot uptake it.

Hoeing damage the eggs of beneficial insects which are responsible for nitrogen fixing and fertility restoration.

Applicable nutrient move from one place to another.

Hoeing damage the whole plant or some parts.

It disturb the level of soil.

The main objective of hoeing near farmers is only weeds removal and soil aeration. This problem can be solved by using the below suggestion.

• By using recommend weedicide, at the pre emergence stage or post emergence stage for wheat, cotton, sugarcane, maiz, potato etc. weedicide dose can recommended by agrarian decision after field vist.

ü Pre emergence weedicides i.e.
Pandimethelen@1000ml/acre, Acetacholor@500ml/acre, S-metolacholor etc.
ü Post emergence weedicides viz.
Bromoxinal+MCPA@500ml/acre, Cholodenafop@150gm/acre,
Fenoxaprop@500ml/acre, Fluroxypyr + MCPA@300gm/acre,
Isoproturon@800gm/acre, Atlantis@180gm/acre, glyphosate@150ml/16L water,
Paraquat (Gramaxone)@1000ml/acre.

• By using recommended soil supplements at both stages i.e. pre sowing and post sowing.

These supplements improve the soil structure and make a fertile soil for better crop yield.
ü Humic acid, application of this recommended dose chemical in soil at pre and post sowing break the soil hard pan, active the bonded nutrients in soil, soil aeration by softening of soil.
ü By the application of balance macro and micro nutrient at sowing and post sowing time.
This method is very efficient to improve the soil structure and increase the crop yield for the earning of farmers, time saving and for country development.
By: Shehzad Ahmad Kang: Department of Plant Breeding and Genetics, University of Agriculture, Faisalabad, Pakistan,38040.
Corresponding author’s email; shehzadpbg@gmail.com

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The science of compost

Gardening experts discuss how to rectify a stinky compost bin.
Composting at home is fairly straightforward, but can go wrong quickly, and your nose knows when the compost container isn’t working properly. A functioning compost pile should smell faintly like warm earth. There are several causes of foul-smelling compost, and several practical solutions.
Mark King is a compost expert with the division of solid waste management at the Maine Department of Environmental Protection. He said all stinky compost problems come down to “breakdowns in pile management,” largely due to neglect.

“Many people read how easy it is to compost and tend to think you can just toss stuff into a pile and in six to 12 months you will have compost,” King said. “This popular misconception has led to more than a few unhappy home owners who end up with a stinky offensive mess. However, provided with the proper technical support and educational outreach, they are able to turn things around, and happiness returns.”

The magic of microbes

Though compost may seem like magic, it relies on little critters — either microbes or worms. As King explains, these helpers require food, air and water.

“Microbes rely upon a balance of carbon and nitrogen. Carbon provides the energy source, and nitrogen is used as ‘building blocks’ to produce more microbes,” King said. Specifically, this recipe translates to 30 or 40 parts paper or leaves (carbon) per one part food scraps or grass clippings (nitrogen). The mix must be kept moist and well-aerated.

If the mix is right, the microbes produce compost, carbon dioxide and water vapor. Without enough oxygen or the wrong mix, it could start producing stinky volatile organic acids.

Time and temperature: The keys to compost

King recommends taking the temperature of a compost pile. The goal is temperatures above 120 degrees Fahrenheit.

Richard Stehouwer is an associate professor of environmental soil science at Penn State University. He explains why cooler compost isn’t doing its job.

“Anaerobic decomposition is much slower and generates far less heat than aerobic decomposition,” he said. “So heat dissipates from the pile as quickly as it is being generated and the pile temperature does not increase. In these systems anything that prevents oxygen from reaching zones in the pile where decomposition is ongoing will result in anaerobic conditions and production of malodorous gasses.”

“Optimizing the recipe will create an odor-free, aerobic environment,” King said. “When any of these items are out of balance, odors ensue. The good news is that with proper attention, most problems are easily fixed and odors go away.”

Stehouwer offers the following troubleshooting suggestions for cold, stinky compost bins:

1. Mix the carbon and the food scraps more thoroughly, so the decomposing food can diffuse oxygen faster than it consumes oxygen.

2. Mix more dry leaves or paper into a pile that may be too wet. “The rate of oxygen diffusion through water is 10,000 times slower than through air,” he said.

3. “Add material that will help create porosity,” he said, such as wood chips, straw and dry leaves. Large air gaps in a compost pile improve air flow and help the microbes do their job.

4. Add more carbon. Excess nitrogen, or food scraps, can generate stinky ammonia.

Preventing compost odors in the kitchen

The other major source of compost-related odors is the food scrap pile in the kitchen awaiting the trip to the compost bin. To avoid odors in the kitchen, King recommends storing less than a week’s worth of food in an airtight container, then feeding it to the compost microbes along with the recommended 30 to 40 times as much paper, leaves or other carbon.

The same general rules apply to worm compost, which also can start to smell with the wrong proportions of food, carbon and water. King warns against letting food scraps get too rotten. “Even worms have their standards.”

Stehouwer warns that worm compost bins can get stinky if users add more food or larger particles than worms can handle. He recommends chopping food into smaller pieces, and always adding plenty of paper or cardboard whenever food is added. Some vermicomposters use a small old blender or food processor to grind up the worm food.

Give the worms, or the microbes in a hot compost bin, the right mix of food, air and water, and they will generate valuable, earthy-smelling compost for your garden.

Source: MNN
Published on: 03/21/2011

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Intensive Farming With a Climate-Friendly Touch: Farming/Woodland Mix Increases Yields

In the world of agriculture, climate protection and intensive farming are generally assumed to be a contradiction in terms. At Technische Universität München (TUM), however, scientists have come up with a new land development concept that could change this view. The new model is tailored to medium-sized farms in South America and sees farmers transitioning from large-scale monoculture to more diverse crop mixtures spread over smaller plots interspersed with wooded areas -- a switch that can bring significant financial benefits.

 

Each year, huge carbon stores are lost as a result of deforestation. In South America, around four million hectares of forest are cut down every year. As a result, international climate protection programs are planning to financially compensate farmers who preserve forests or plant new trees. Demand for land is rising, however. And growing need for food and energy crops will inevitably lead to conflicts of interest over fertile land in countries such as Brazil and Ecuador.

Thomas Knoke and Michael Weber at Technische Universität München (TUM) firmly believe that intensive, high-yield agricultural practices can go hand-in-hand with climate and environmental protection. The two scientists and their colleagues have developed a "diversified land-use" concept for medium-sized holdings in South America based on an idea originally developed by retired TUM professor, Wolfgang Haber. The new concept encourages farmers to move away from large-scale monocropping and plant a mix of field crops on smaller plots, while at the same time setting aside part of their land for forests and hedges. Any unused land will be reforested. The smaller plots of farmland will still be large enough for intensive farming practices using fertilizers, planting machines and harvesters. The interspersed wooded areas and hedges will protect the soil from erosion and serve as long-term carbon stores.

Knoke and Weber have evaluated the economic viability of their concept based on a typical medium-sized agricultural holding. This model hacienda comprises an area of over 116 hectares and includes croplands, wooded areas and unused land. There are around five million family-owned farms of this size on the South American continent.

Adopting this sustainable method of intensive farming initially means higher costs for farmers due to reforestation and the division of land into individual plots. However, the combination of woodland management and smaller plots of land pays off in the long term. Working lots of individual plots enables farmers to diversify and spread risk -- in much the same way as smart investors. By growing a broader portfolio of crops such as soya, sugar cane, corn and coffee, they can reduce their dependency on price fluctuations. The wooded areas also provide extra income. Smaller material from forest thinning can be used as firewood, while larger logs can be sold as building material. Depending on the crops harvested, a farm modeled on the diversified land-use method will achieve higher returns than a monocrop farm in eight years at the latest. Farmers working this new model can achieve between 19 and 25 percent more yield than they would with large-scale monoculture.

To ease the transition to diversified land development, Knoke and Weber are lobbying for start-up funding and knowledge sharing. "The associated costs, however, are the same or less than comparable measures aimed at reducing CO2 levels," explains Professor Knoke from the TUM's Institute of Forest Management. "Which makes diversified land development in line with local dynamics an effective approach to ensuring highly productive yet climate-friendly agriculture."

Source: Science Daily

Published on: 11/08/2012

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