Lorna Dawson scite author profile

This study examined how root growth and morphology were affected by variation in soil moisture at four Amazon rainforest sites with contrasting vegetation and soil types. Mean annual site root mass, length and surface area growth ranged between 3-7 t ha −1 , 2-4 km m −2 and 8-12 m 2 m −2 respectively. Mean site specific root length and surface area varied between 8-10 km kg −1 and 24-34 m 2 kg −1 . Growth of root mass, length and surface area was lower when soil water was depleted (P< 0.001) while specific root length and surface area showed the opposite pattern (P<0.001). These results indicate that changes in root length and surface area per unit mass, and pulses in root growth to exploit transient periods of high soil water availability may be important means for trees in this ecosystem to increase nutrient and water uptake under seasonal and longer-term drought conditions.

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Labile and recalcitrant plant fractions are utilised by distinct microbial communities in soil: Independent of the presence of roots and mycorrhizal fungi

Paterson¹,

Osler²,

Dawson³

et al. 2008

Soil Biology and Biochemistry

218

102

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Fine Root Dynamics in a Tropical Rain Forest is Influenced by Rainfall

Green¹,

Dawson²,

Proctor

et al. 2005

Plant Soil

101

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Quantifying patterns of fine root dynamics is crucial to the understanding of ecosystem structure and function, and in predicting how ecosystems respond to disturbance. Part of this understanding involves consideration of the carbon lost through root turnover. In the context of the rainfall pattern in the tropics, it was hypothesised that rainfall would strongly influence fine root biomass and longevity. A field study was conducted to determine root biomass, elemental composition and the influence of rainfall on longevity of fine roots in a tropical lowland evergreen rainforest at Danum Valley, Sabah, Malaysia. A combination of root coring, elemental analysis and rhizotron observation methods were used. Fine (less than 2 mm diameter) root biomass was relatively low (1700 kg ha −1 ) compared with previously described rainforest data. Standing root biomass was positively correlated with preceding rainfall, and the low fine root biomass in the dry season contained higher concentrations of N and lower concentrations of P and K than at other times. Observations on rhizotrons demonstrated that the decrease in fine root biomass in the dry season was a product of both a decrease in fine root length appearance and an increase in fine root length disappearance. Fitting an overall model to root survival time showed significant effects of rainfall preceding root disappearance, with the hazard of root disappearance decreasing by 8% for each 1 mm increase in the average daily (30 day) rainfall preceding root disappearance. While it is acknowledged that other factors have a part to play, this work demonstrates the importance of rainfall and soil moisture in influencing root biomass and root disappearance in this tropical rainforest.

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Soils and sustainable development goals of the United Nations: An International Union of Soil Sciences perspective

et al. 2021

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Lorna Dawson

The anaerobic digestion of solid organic waste

The effects of water availability on root growth and morphology in an Amazon rainforest

Labile and recalcitrant plant fractions are utilised by distinct microbial communities in soil: Independent of the presence of roots and mycorrhizal fungi

Fine Root Dynamics in a Tropical Rain Forest is Influenced by Rainfall

Soils and sustainable development goals of the United Nations: An International Union of Soil Sciences perspective

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