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Balanced nutritionledto increased nitrogen uptake efficiency , utilization efficiency , and use efficiency for grain yield and harvest index
Staff Researchers at the University of Oxford and the Chinese Academy of Scienceshave discovereda new gene that improves the yield and fertilizer use efficiency of rice
Researchers at the University of Oxford and the Chinese Academy of Scienceshave discovereda new gene that improves the yield and fertilizer use efficiency of rice
Use of MOFs as innovative slow - release fertilisersmay contributeto soil alkalinisation , soil fertility and improved N and P fertiliser use efficiency
increasing densitycausedan increase in grain yield and nitrogen use efficiency
The agricultural changeshave ledto increased fertilizer use and nutrient losses
The reduction of nitrate pool - size in plant tissuescontributes greatlyto the production of harmless vegetables and an increase of the utilization efficiency of fertilizer nitrogen
an important factorinfluencingcrop development , yield and fertilizer use efficiency
Nutrient leachingwill resultin reduced efficiency and reduced use of nutrient fertilizer in the soil
nutrient sources and application rate(passive) are significantly influenced byWheat quality , nutrient uptake and nutrient use efficiency
The conventional blanket fertilizer recommendationis causingimbalanced and skewed use of nutrients resulting in low fertilizer use efficiency
The incorporation of drip irrigation with plastic mulch culture of vegetablesresultin greater water and fertilizer use efficiency
Synchronizing N fertilizer application with crop - N demand and accounting for residual Nitrogenwill leadto higher N fertilizer use efficiency
stems to seedsleadingto higher yield and nutrient use efficiency
management practicesleadingto higher N fertilizer use efficiency
measuresresultingin higher nitrogen fertilizer - use efficiency
the soil ... in turnledto low crop yields and low water and fertilizer use efficiency
the various plant and soil factorscontributeto nutrient use efficiency of plants
four projectsdesignedto improve nutrient efficiency and reduce the nitrogen footprint of fertilizer use
a carbon content Manure plus fertilizer applicationresultedin increased fertilizer use efficiency
factorsinfluencingcropping patterns , fertilizer - use and resource - use efficiency
Manure plus fertilizer applicationresultedin increased fertilizer use efficiency
Improvement in soil health and decrease in the number of soil borne pathogensleadto better yield and less usage of fertilizers
Excessive fertilizationleadingto low fertilizer use efficiency
These differencecontributedto the different yield and nutrient utilization efficiency
the soilresultsinto very efficient mobilization & uptake of fertilizers and other nutrients by plants
soil microbescontributeto nutrient cycling and the efficiency of fertiliser use
Median and near - optimum levels of fertilizer - N input in association with management practices that optimize the yield potential and increasewould leadfertilizer - N use efficiency
both pot and field experiments foliar feeding of aerosols with lower dose at the earlier growth stagesinfluencednitrogen use efficiency and yield
N(passive) was influencedThe use efficiency of chemical fertilizer
Adoption of all thesehave resultedin enhancing land use efficiency , water and fertilizer
the corresponding fertilizer use efficienciescomposedof the soil- and fertilizer nutrient release efficiencies and the crop nutrient
Adoptionwould leadto more balanced fertilizer input and enhanced fertilizer efficiency
The aim of the project isto contributeto improved efficiency and profitability of fertilizer use
properties of the soil and knowledge of farmers(passive) is greatly influenced byFertilizer and water use efficiency for vegetable crops
great scopeto resultin enhancing nutrient and resource use efficiency through higher yields
On alkaline soils , P availability is also reducedresultingin reduced fertilizer efficiency and crop yield
the important factorsinfluencingthe fertilizer use efficiency
This changeresultsin high efficiency of fertilizer use
Fertilizer boosters(passive) are designedFertilizer boosters
negative impacts(passive) caused bynegative impacts
uptake by the growing plantcan influenceuptake by the growing plant
in higher yieldresultedin higher yield
to less economic returns and greater threat to the environmentleadingto less economic returns and greater threat to the environment
algal bloomscausealgal blooms
the problem of air , water and soil pollutionhas causedthe problem of air , water and soil pollution
to eutrophicationcan leadto eutrophication
Great Big Plants(passive) is designedGreat Big Plants
in salt injurycan resultin salt injury
water pollutioncan causewater pollution
to less economic returns and greater threatleadingto less economic returns and greater threat
low soil fertility which results in low land productivitycauseslow soil fertility which results in low land productivity
to a number of benefits to Indian agricultureleadsto a number of benefits to Indian agriculture
harmful algal growth to accumulate and deplete waters of oxygencausesharmful algal growth to accumulate and deplete waters of oxygen
from using large granule urea ( 0.5 inresultedfrom using large granule urea ( 0.5 in
in rapid depletion of micronutrients from soilshas resultedin rapid depletion of micronutrients from soils
in plant problemshas resultedin plant problems
to poor production within our farms and pasturesleadto poor production within our farms and pastures
when sulphate fertilizer is placed near roots for easy access , and just before the period of plant uptakegenerally resultswhen sulphate fertilizer is placed near roots for easy access , and just before the period of plant uptake
to substantial saving of fertilizers and increase in the yieldleadingto substantial saving of fertilizers and increase in the yield
in vigorous growth increasing yield and quality sugarcane cropwill resultin vigorous growth increasing yield and quality sugarcane crop
to less waste and potential for environmental pollutionleadingto less waste and potential for environmental pollution
to higher root weightsmight have contributedto higher root weights
in field trialsdiscoveredin field trials
to algal bloomscan contributeto algal blooms
to increased water , natural biological processes abovecontributeto increased water , natural biological processes above
characters of chickpeacontributingcharacters of chickpea
to the goals of the Water Quality Agreementwill contributeto the goals of the Water Quality Agreement