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List of works by Gabriel Y.K. Moinet

Addition of nitrogen fertiliser increases net ecosystem carbon dioxide uptake and the loss of soil organic carbon in grassland growing in mesocosms

article

Addition of sorptive mineral phases to soils decreases short-term organic matter decomposition by reducing microbial access to substrates

scholarly article

Carbon for soils, not soils for carbon

scientific article published on 16 January 2023

Combination of Lolium perenne L. and Festuca arundinacea Schreb. improve yields under low phosphorus availability

scientific article published in 2024

Effects of irrigation and addition of nitrogen fertiliser on net ecosystem carbon balance for a grassland.

scientific article published on 03 December 2016

Effects of irrigation and nitrogen addition on the components of net ecosystem carbon balance in New Zealand grazed grasslands.

2016 doctoral thesis by Gabriel Moinet at University of Canterbury

Estimates of rhizosphere priming effects are affected by soil disturbance

article

Estimating the mineral surface area of soils by measured water adsorption. Adjusting for the confounding effect of water adsorption by soil organic carbon

scholarly article

Management practices to reduce losses or increase soil carbon stocks in temperate grazed grasslands: New Zealand as a case study

article

Organic matter contributions to nitrous oxide emissions following nitrate addition are not proportional to substrate-induced soil carbon priming

scientific article published in 2022

Phytomass index improves estimates of net ecosystem carbon dioxide exchange in intensively grazed grassland

article

Soil carbon availability affects nitrogen transformation under irrigated lucerne

Soil heterotrophic respiration is insensitive to changes in soil water content but related to microbial access to organic matter

scholarly article

Soil microbial sensitivity to temperature remains unchanged despite community compositional shifts along geothermal gradients

scholarly article

Temperature sensitivity of decomposition decreases with increasing soil organic matter stability

scientific article published on 21 November 2019

The temperature sensitivity of soil organic matter decomposition is constrained by microbial access to substrates

scholarly article by Gabriel Y.K. Moinet et al published January 2018 in Soil Biology and Biochemistry

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