1、Organic fertilization promotes crop productivity through changes in

Organic fertilization increased crop productivity by promoting macro-aggregation. Macro-aggregates is an important resource of nutrients promoted plant growth. Resources in micro-aggregate were conducive to microbial utilization. Microorganisms in micro-aggregates were C-limited.

2、Effects of organic fertilizers on plant growth and the rhizosphere

Application of organic fertilizers is an important strategy for sustainable agriculture. The biological source of organic fertilizers determines their specific functional characteristics, but few studies have systematically examined these functions or assessed their health risk to soil ecology.

3、Review of Organic Fertilizer and Its Role in Organic Farming

Optimizing organic fertilizer incorporation practices in cropland is essential to enhancing crop productivity and soil health. Organic fertilizers are substances with a specific chemical...

4、A global meta

Collectively, our findings highlight organic fertilization as a potential nature-based solution that can increase two ecosystem services of grasslands, forage production, and soil carbon...

Multifaceted Ability of Organic Fertilizers to Improve Crop

In the present review, we have discussed the ability of organic fertilizers to improve soil fertility, crop yield, and the nutrient use efficiency. We have also presented the various mechanisms through which organic fertilizers improve tolerance against drought, salinity, heat, and heavy metals.

Role of Organic Fertilizers in Improving Soil Fertility

Organic fertilizer is used to maintain soil fertility. Organic fertilizers are biodegradable material, which makes better nutrient sources. Organic carbon content of organic fertilizers has equivalent or higher value of nitrogen and phosphorus contents.

Using Organic Fertilizers for Sustainable Plant Growth

Organic fertilizers are derived from natural sources such as plant residues, animal manure, compost, and other biodegradable materials. Unlike synthetic fertilizers that supply nutrients in concentrated chemical forms, organic fertilizers release nutrients slowly as they decompose in the soil.

A framework for evaluating benefits of organic fertilizer use in

1. Introduction The application of organic materials to agricultural soils has multiple benefits, not only as a source of essential plant nutrients which can provide savings in inorganic fertilizer use [1], but also as a means of increasing soil organic carbon (SOC) levels that can improve the soil biological and physical functioning [2].

Organic Fertilizers: Pros And Cons, Types, And Role In Farming

What Are Organic Fertilizers, And Why Are They Used? Organic, or natural, fertilizers come from natural sources, and they comprise a minimum of one essential nutrient to feed plants. Some examples of all-natural plant feed are compost, manure, and rock powders.

The Principal Role of Organic Fertilizer on Soil Properties and

As a key component of agricultural sustainability, organic fertilizer contributes greatly to improving soil fertility. Therefore, the objective of this review is to revise the role of...

Organic fertilizer plants, as an indispensable part of modern agricultural production, play a critical role in transforming organic waste into high-efficiency fertilizers. Against the backdrop of sustainable agricultural development and ecological environmental protection, understanding their functions and roles is particularly important. Below is a detailed analysis from multiple perspectives:

I. Production and Processing of Organic Fertilizer

1. Raw Material Preparation: The primary raw materials for organic fertilizer include livestock manure, crop straw, and other organic waste. During collection, transportation, and storage, these materials must be handled in a pollution-free and harmless manner to ensure the safety and environmental friendliness of the final product.
2. Fermentation Process: Through natural or artificially controlled methods such as high-temperature composting and anaerobic digestion, organic matter is decomposed and transformed into nutrient-rich, stable fertilizers. This process significantly improves soil fertility and optimizes crop growth conditions.
3. Quality Control: To meet industry standards, organic fertilizer plants strictly monitor parameters like temperature, humidity, and pH levels throughout production. Regular quality inspections and assessments are conducted to ensure product reliability.

II. Application and Promotion of Organic Fertilizer

1. Soil Improvement: Organic fertilizer increases soil organic matter content, enhances soil structure, and improves water-and-nutrient retention capabilities. This promotes root development and nutrient uptake in plants.
2. Significant Crop Yield Increase: Crops grown in soil treated with organic fertilizer often exhibit stronger disease resistance, faster growth, and higher yields.
3. Environmental Protection Benefits: The use of organic fertilizer reduces reliance on chemical fertilizers, lowers pesticide residues, and mitigates water eutrophication, contributing to ecological sustainability.
4. High Market Acceptance: As consumer awareness of food safety and environmental protection grows, organic fertilizer—characterized by its natural and healthy properties—enjoys widespread market popularity.

III. Technological Innovation and Industrial Upgrading

1. Technological Advancements: Organic fertilizer plants should continuously adopt new technologies, such as bio-fermentation and automated control systems, to improve efficiency and product quality.
2. Industrial Chain Integration: By integrating upstream and downstream resources to establish a complete industrial chain, costs can be reduced, product competitiveness enhanced, and the healthy development of the industry promoted.
3. Policy Support and Guidance: Governments should introduce policies to encourage organic fertilizer development, providing financial subsidies and tax incentives to support enterprise transformation and upgrading.

IV. Socioeconomic Benefit Analysis

1. Employment Promotion: The construction and operation of organic fertilizer plants create numerous job opportunities for local residents.
2. Increased Farmers’ Income: Farmers benefit directly from selling organic fertilizer products, improving their livelihoods.
3. Advancing Agricultural Modernization: The use of organic fertilizer is a key pathway to sustainable agriculture, facilitating the transition from traditional to modern farming practices.

organic fertilizer plants are not only vital to agricultural production but also serve as a bridge between environmental protection and agricultural development. A deep understanding of their functions can drive green agricultural transformation, protect ecosystems, and enhance agricultural product quality. In the future, with technological progress and policy refinement, organic fertilizer plants will play an even greater role in promoting sustainable agriculture and ecological civilization.