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Key Elements for Plant Nutrition02:35

Key Elements for Plant Nutrition

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Like all living organisms, plants require organic and inorganic nutrients to survive, reproduce, grow and maintain homeostasis. To identify nutrients that are essential for plant functioning, researchers have leveraged a technique called hydroponics. In hydroponic culture systems, plants are grown—without soil—in water-based solutions containing nutrients. At least 17 nutrients have been identified as essential elements required by plants. Plants acquire these elements from the...
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Plants often form mutualistic relationships with soil-dwelling fungi or bacteria to enhance their roots’ nutrient uptake ability. Root-colonizing fungi (e.g., mycorrhizae) increase a plant’s root surface area, which promotes nutrient absorption. While root-colonizing, nitrogen-fixing bacteria (e.g., rhizobia) convert atmospheric nitrogen (N2) into ammonia (NH3), making nitrogen available to plants for various biological functions. For example, nitrogen is essential for the...
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In biological systems, most metabolic pathways are interconnected. The cellular respiration processes that convert glucose to ATP—such as glycolysis, pyruvate oxidation, and the citric acid cycle—tie into those that break down other organic compounds. As a result, various foods—from apples to cheese to guacamole—end up as ATP. In addition to carbohydrates, food also contains proteins and lipids—such as cholesterol and fats. All of these organic compounds are used...
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Related Experiment Video

Updated: Oct 21, 2025

Quantifying Plant Soluble Protein and Digestible Carbohydrate Content, Using Corn Zea mays As an Exemplar
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Global relationships between crop diversity and nutritional stability.

Charlie C Nicholson1,2, Benjamin F Emery3,4, Meredith T Niles3,5,6,7

  • 1Department of Biology, Lund University, Lund, Sweden. charlie.nicholson@biol.lu.se.

Nature Communications
|September 8, 2021
PubMed
Summary

Diversified agriculture enhances nutritional stability, but gains are slowing due to less nutrient-rich crops. Many nations rely on imports for nutritional stability, exposing them to market risks.

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Area of Science:

  • Agricultural Science
  • Food Systems Analysis
  • Nutritional Science

Background:

  • Nutritional stability, crucial for food systems, is difficult to measure.
  • Diversified agriculture is key to ensuring food systems provide sufficient nutrients despite disturbances.

Purpose of the Study:

  • To quantify nutritional stability using crop-nutrient networks.
  • To assess the relationship between crop diversity and nutritional stability across regions, time, and production sources (imports vs. domestic).

Main Methods:

  • Assembled 22,000 bipartite crop-nutrient networks using 55 years of data from 184 countries.
  • Simulated crop and nutrient loss to quantify nutritional stability.
  • Analyzed the impact of crop diversity on nutritional stability, considering imports versus domestic production.

Main Results:

  • A positive, saturating relationship exists between crop diversity and nutritional stability globally.
  • Nutritional stability stagnated or decreased in most regions over time, except in Asia.
  • Diminishing returns on crop diversity were observed, with recent increases in less nutrient-dense crops or those with already abundant nutrients.
  • Imports positively correlate with crop diversity and nutritional stability.

Conclusions:

  • While crop diversity generally enhances nutritional stability, its impact is diminishing.
  • Global nutritional stability is increasingly influenced by market-exposed imports.
  • Policy interventions may be needed to ensure sustained nutritional stability beyond simple crop diversification.