The Effect of Phosphorus Availability on the Carbon Economy of Contrasting Common Bean (Phaseolus Vulgaris L.) Genotypes

Overview

Journal J Exp Bot

Publisher Oxford University Press

Specialty Biology

Date 2001 Apr 3

PMID 11283178

Citations 54

Authors

K L Nielsen

A Eshel

J P Lynch

Affiliations

Soon will be listed here.

Abstract

A common response to low phosphorus availability is increased relative biomass allocation to roots. The resulting increase in root:shoot ratio presumably enhances phosphorus acquisition, but may also reduce growth rates by diverting carbon to the production of heterotrophic rather than photosynthetic tissues. To assess the importance of increased carbon allocation to roots for the adaptation of plants to low P availability, carbon budgets were constructed for four common bean genotypes with contrasting adaptation to low phosphorus availability in the field ("phosphorus efficiency"). Solid-phase-buffered silica sand provided low (1 microM), medium (10 microM), and high (30 microM) phosphorus availability. Compared to the high phosphorus treatment, plant growth was reduced by 20% by medium phosphorus availability and by more than 90% by low phosphorus availability. Low phosphorus plants utilized a significantly larger fraction of their daytime net carbon assimilation on root respiration (c. 40%) compared to medium and high phosphorus plants (c. 20%). No significant difference was found among genotypes in this respect. Genotypes also had similar rates of P absorption per unit root weight and plant growth per unit of P absorbed. However, P-efficient genotypes allocated a larger fraction of their biomass to root growth, especially under low P conditions. Efficient genotypes had lower rates of root respiration than inefficient genotypes, which enabled them to maintain greater root biomass allocation than inefficient genotypes without increasing overall root carbon costs.

Citing Articles

Varying effects of Vicia sativa and Vicia villosa on bacterial composition and enzyme activities in nutrient-deficient sugarcane soils under greenhouse conditions.

Ngonini E, Perez-Fernandez M, Magadlela A Sci Rep. 2025; 15(1):3317.

PMID: 39865122 PMC: 11770188. DOI: 10.1038/s41598-025-87910-y.

Cortical parenchyma wall width regulates root metabolic cost and maize performance under suboptimal water availability.

Sidhu J, Lopez-Valdivia I, Strock C, Schneider H, Lynch J J Exp Bot. 2024; 75(18):5750-5767.

PMID: 38661441 PMC: 11427841. DOI: 10.1093/jxb/erae191.

Germination Behavior and Geographical Information System-Based Phenotyping of Root Hairs to Evaluate the Effects of Different Sources of Black Soldier Fly () Larval Frass on Herbaceous Crops.

Labella R, Bochicchio R, Addesso R, Labella D, Franco A, Falabella P Plants (Basel). 2024; 13(2).

PMID: 38256783 PMC: 10819484. DOI: 10.3390/plants13020230.

Influence of Increase in Phosphorus Supply on Agronomic, Phenological, and Physiological Performance of Two Common Bean Breeding Lines Grown in Acidic Soil under High Temperature Stress Conditions.

Suarez J, Urban M, Anzola J, Contreras A, Vanegas J, Beebe S Plants (Basel). 2023; 12(18).

PMID: 37765443 PMC: 10534644. DOI: 10.3390/plants12183277.

Large root cortical cells and reduced cortical cell files improve growth under suboptimal nitrogen in silico.

Lopez-Valdivia I, Yang X, Lynch J Plant Physiol. 2023; 192(3):2261-2275.

PMID: 37040571 PMC: 10315315. DOI: 10.1093/plphys/kiad214.