1、Rhizobial Inoculation and Molybdenum Fertilization in Peanut Crops

In long-term pasture areas, inoculation and molybdenum fertilization greater than the currently recommended rate appear to be necessary to increase pod and kernel yield per hectare of peanut...

2、Effect of molybdenum fertilizer on peanut yield

The results showed that the adding molybdenum fertilizer could increase the peanut yield by improvng the yield components such as the main stem height, branch length, total branch number, fruit length per plant, kernel weight, kernel yield, fruit number per plant.

3、Response of peanut to foliar application of molybdenum and seed

Plants fertilized with Mo showed higher root nodulation, leaf N concentration, and shoot dry matter production than control plants in both growing seasons. However, the crop grain yield was significantly high (24%) only in the 2016/2017 season in plants fertilized with Mo.

4、Rhizobial Inoculation and Molybdenum Fertilization in Peanut Crops

In long-term pasture areas, inoculation and molybdenum fertilization greater than the currently recommended rate appear to be necessary to increase pod and kernel yield per hectare of peanut when managed under no-tillage.

5、Meta

Since 2000, the yield-enhancing effect of Mo fertilization has declined in soybeans while increasing in peanuts. Mo application also significantly improved protein content in maize, peanuts, and soybeans, as well as the fat content of peanuts and soybeans.

Peanut Fertilization Program

Boron fertilizer and molybdenum fertilizer are essential trace elements for peanuts. Applying boron fertilizer and molybdenum fertilizer can effectively enhance the nitrogen fixation effect of peanuts, improve their yield and quality. (3) Principles of Peanut Fertilization.

Studies on the fertilization improvement of Molybdenum deficiency of

Molybdenum deficiency of peanut has been commonly observed in Hualien area, especially in acid soils. Leaf chlorosis might inhibit photosynthesis, retard growth and lower yield of peanut.

Rhizobial Inoculation and Molybdenum Fertilization in Peanut Crops

Molybdenum (Mo) fertilization and rhizobial inoculation could potentially be combined in efforts to recover these degraded areas, reduce production costs, and enhance utilization throughout the year, all of which could generate positive socio-economic and environmental outcomes.

The Role of Molybdenum in Agricultural Plant Production

In this review, the role of molybdenum in plants is discussed, focusing on its current constraints in some agricultural situations and where increased molybdenum nutrition may aid in agricultural plant development and yields.

Method for applying molybdenum fertilizer onto peanuts

A molybdenum fertilizer and peanut technology is applied in the field of peanut planting and fertilization to achieve the effects of solving the lack of molybdenum element, increasing yield and promoting the growth of peanuts

Functions of Molybdenum Fertilization in Peanuts

I. Promoting Peanut Growth

1. Enhancing Root Development: Molybdenum is one of the essential microelements required for plant growth and plays a critical role in root development of crops like peanuts. Applying molybdenum fertilizer stimulates root elongation and branching, strengthens root absorption capacity, enables peanuts to efficiently absorb soil nutrients, and ultimately accelerates growth and increases yield.

2. Improving Photosynthetic Efficiency: Molybdenum enhances chlorophyll content and stability, boosting photosynthetic capacity. During peanut growth, this improvement effectively increases dry matter accumulation, promoting overall development.

II. Enhancing Peanut Stress Resistance

1. Strengthening Disease Resistance: Molybdenum fortifies peanut plants' defense against diseases, reducing infection rates. For instance, molybdenum fertilization enhances resistance to rust and powdery mildew, mitigating yield losses caused by these pathogens.

2. Improving Drought Tolerance: Molybdenum elevates drought resistance in peanut plants, enabling them to maintain healthy growth under water-scarce conditions. This benefit is particularly valuable for cultivation in arid regions, improving both yield and economic returns.

III. Facilitating Peanut Seed Development

1. Increasing Seed Plumpness: Molybdenum fertilizer promotes protein and fat synthesis in peanut seeds, enhancing kernel plumpness. This directly improves market quality and value.

2. Extending Storage Life: Molybdenum application delays senescence processes, prolonging post-harvest storage duration. This preserves seed quality and prevents deterioration during extended storage periods.

IV. Improving Peanut Quality

1. Elevating Oleic Acid Content: Molybdenum stimulates oleic acid biosynthesis, increasing this desirable fatty acid component. High-oleic peanuts enjoy greater consumer preference and market competitiveness.

2. Reducing Aflatoxin Production: Molybdenum application suppresses aflatoxin formation, enhancing food safety. Since aflatoxins pose significant health risks, minimizing their presence ensures compliance with safety standards for peanut products.

V. Resource Conservation

1. Reducing Fertilizer Inputs: Molybdenum fertilization partially substitutes conventional nitrogen and phosphorus fertilizers, lowering overall chemical input costs while alleviating environmental pollution.

2. Improving Fertilizer Utilization Rates: Molybdenum enhances nutrient uptake efficiency, reducing fertilizer runoff and waste. This practice supports sustainable agricultural resource management and economic viability.

molybdenum fertilization exerts multifaceted benefits on peanut cultivation. It fosters robust root systems, optimizes photosynthesis, bolsters stress resilience, advances seed maturation, elevates nutritional profiles, and promotes resource efficiency. Rational application of molybdenum fertilizers is therefore instrumental in advancing peanut production and economic outcomes.