1、Global crop

To provide input data for the land surface models for assessing the effects of agricultural N fertilization practices on food security, climate change and ecosystem health, we developed a new...

2、Plant nitrogen uptake preference and drivers in natural ecosystems at

Elucidating plant nitrogen (N) acquisition is crucial for understanding plant N strategies and ecosystem productivity. However, the variation in plant N uptake preference and its controlling factors on a global scale remain unclear.

3、Plants Requiring High Nitrogen Fertilization

Hamani et al. recently used high nitrogen-fixing strains (Bacillus brevis, Bacillus laterosporus, and Saccharomyces) to inoculate wheat plants in a pot experiment via irrigation on the 21st day after germination.

What Plants Like Nitrogen? Top Heavy Feeders Listed

Some plants need a lot more nitrogen than others. Find out which crops are heavy feeders and how to keep them well-fed without overdoing it.

Feeding the world sustainably: efficient nitrogen use: Trends in Plant

Hamani et al. recently used high nitrogen-fixing strains (Bacillus brevis, Bacillus laterosporus, and Saccharomyces) to inoculate wheat plants in a pot experiment via irrigation on the 21st day after germination.

Nitrogen Management in Crop–Soil–Environment Systems: Pathways Toward

By visualizing how inorganic and organic nitrogen forms are acquired and integrated into plant metabolism, Figure 1 provides a mechanistic foundation for understanding how interventions such as crop breeding, genome editing, optimized fertilization, and bio-based inputs can enhance nitrogen capture, utilization, and retention within plant ...

Nitrogen application regulates ecosystem multifunctionality through

These collective findings underscore that optimal nitrogen fertilization promotes nutrient assimilation and utilization in maize plants. Optimizing field nutrient management and fertilization practices is pivotal to achieving synergistic outcomes in maize productivity, resource use efficiency, and environmental sustainability (Zhao et al. 2023).

Top 10 Plants That Need High Nitrogen: Every Gardener Should Know

Discover the top 10 plants that thrive in high nitrogen environments. From corn to tomatoes, lettuce to spinach, and more, learn which plants have an insatiable appetite for nitrogen and how to create the perfect conditions for their growth.

Nitrogen fertilization and soil nitrogen cycling: Unraveling the links

In our study, we unveiled a potential correlation that synthesized multiple environmental factors, NFGs, and nitrogen transformation rates (Fig. 7), providing insights into how nitrogen fertilization shaped the intricate dynamics of soil nitrogen cycling.

Nitrogen Fertilization I: Impact on Crop, Soil, and Environment

In this chapter, we discuss the consequences of N fertilization to crop yields and soil and environmental quality. 2. Crop yields, nitrogen uptake, and nitrogen-use efficiency. Nitrogen fertilization can increase crop yields and N uptake compared with no N fertilization.

Plant growth depends on various nutrients, among which nitrogen is one of the most critical elements for development. Nitrogen fertilizers, which provide this essential nutrient, play a vital role in plant growth. Below are plant categories that require significant nitrogen supplementation, along with explanations and precautions:

1. Leafy Vegetables: Examples include spinach, lettuce, pak choi, and Chinese kale. These plants demand substantial nitrogen to support leaf expansion and photosynthesis. Excessive nitrogen, can cause excessive stalk growth, reducing yield and quality. Application tip: Control dosage to avoid over-fertilization.

2. Leguminous Crops: Such as soybeans, mung beans, and broad beans. Nitrogen is crucial for stem development and pod formation. Overuse leads to delayed maturation and lower yields. Application tip: Limit nitrogen to prevent excessive vegetative growth.

3. Flowering Plants: Like peonies, lilies, and roses. Nitrogen aids color development and flowering, but excess promotes unchecked growth, diminishing aesthetic value. Application tip: Use sparingly to maintain visual appeal.

4. Fruit Trees: Including apples, pears, and peaches. Nitrogen supports fruit expansion and ripening. Over-fertilization causes rapid, low-quality fruit growth. Application tip: Balance nitrogen to ensure optimal yield.

5. Cereal Crops: Wheat, rice, and corn fall here. Nitrogen drives spike/grain formation. Excess leads to late maturation and reduced harvest. Application tip: Moderate nitrogen to avoid delays.

6. Green Manure Crops: Alfalfa and milk vetch, for example. Nitrogen fuels root growth but excessive use compacts soil, harming structure. Application tip: Monitor to preserve soil health.

7. Turfgrasses: Such as ryegrass and tall fescue. Nitrogen boosts leaf growth, yet overuse spurs rapid, unstable turf growth. Application tip: Apply cautiously to retain lawn quality.

Nitrogen fertilization should align with plant type and growth stage. Avoid overapplication, as it can hinder development or reduce output. Complement nitrogen with balanced fertilizers to meet diverse nutritional needs.