Using microdialysis with a deuterium oxide tracer to estimate water exchange, water content and active surface area of the probe

Article Soil Science

Applicability of the microdialysis technique in dry soils: Impact of soil water content depends on perfusion flow rate

Raphael Mueller et al.

Summary: Plant nutrient acquisition relies on the availability and replenishment of nutrients at root surfaces, which is largely influenced by soil physicochemical and biological factors. Diffusion is the main process providing nutrients for root uptake, but its effectiveness is affected by soil water content. Microdialysis, a popular tool for measuring nutrient fluxes in soil, can be used in dry soils with a high perfusion flow rate. However, lower flow rates may lead to perfusate leaching. Our study found that microdialysis is reliable in dry soils with a high flow rate and can provide insights into nutrient supply for root uptake via diffusion.

SOIL BIOLOGY & BIOCHEMISTRY (2023)

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Article Agronomy

Disaggregating the effects of nitrogen addition on gross primary production in a boreal Scots pine forest

Xianglin Tian et al.

Summary: Adding nitrogen to boreal forest ecosystems can increase gross primary production (GPP) by enhancing light interception and light use efficiency. This study found that nitrogen fertilisation elevated ecosystem GPP mainly through an increase in leaf area index and light use efficiency. The dominant control of intra- and inter-annual GPP variations was the constraint arising from atmospheric water demand, rather than soil water stress.

AGRICULTURAL AND FOREST METEOROLOGY (2021)

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Article Soil Science