Vithya Krishnan scite author profile

Vithya Krishnan

3Publications

5Citation Statements Received

176Citation Statements Given

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170

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Agriculture and Food, University of Queensland

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Without management interventions, endemic wet‐sclerophyll forest is transitioning to rainforest in World Heritage listed K’gari (Fraser Island), Australia

Krishnan

Robinson

Firn

et al. 2019

Ecology and Evolution

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Wet‐sclerophyll forests are unique ecosystems that can transition to dry‐sclerophyll forests or to rainforests. Understanding of the dynamics of these forests for conservation is limited. We evaluated the long‐term succession of wet‐sclerophyll forest on World Heritage listed K'gari (Fraser Island)—the world's largest sand island. We recorded the presence and growth of tree species in three 0.4 hectare plots that had been subjected to selective logging, fire, and cyclone disturbance over 65 years, from 1952 to 2017. Irrespective of disturbance regimes, which varied between plots, rainforest trees recruited at much faster rates than the dominant wet‐sclerophyll forest trees, narrowly endemic species Syncarpia hillii and more common Lophostemon confertus. Syncarpia hillii did not recruit at the plot with the least disturbance and recruited only in low numbers at plots with more prominent disturbance regimes in the ≥10 cm at breast height size. Lophostemon confertus recruited at all plots but in much lower numbers than rainforest trees. Only five L. confertus were detected in the smallest size class (<10 cm diameter) in the 2017 survey. Overall, we find evidence that more pronounced disturbance regimes than those that have occurred over the past 65 years may be required to conserve this wet‐sclerophyll forest, as without intervention, transition to rainforest is a likely trajectory. Fire and other management tools should therefore be explored, in collaboration with Indigenous landowners, to ensure conservation of this wet‐sclerophyll forest.

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Organic nitrogen improves the water use of tropical tree seedlings cultivated for restoration plantings

Krishnan

Robinson

Firn

et al. 2023

Plants People Planet

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Restoring degraded tropical lands is important for biodiversity protection and human livelihoods. Newly planted tree seedlings are often challenged by drought brought about by climate change. Here, we explored how nitrogen sources used for plant growth affected the water use of tropical tree seedlings under water limitation. We found that the application of the amino acid arginine reduced water use in the studied seedlings under water limitation, compared with the conventional ammonium nitrate fertiliser. Alternative sources of nitrogen should be considered for tree seedling production in nurseries as this could enhance drought resilience traits and improve the survival of seedlings in restoration plantings. Summary• Restoration via tree planting is impacted by climate change-induced water scarcity. Nitrogen (N) supply modulates the morphology and physiology of plants and impacts water use. We compared the responses of rainforest tree seedlings Acacia mangium and Alphitonia petriei grown with inorganic N (Osmocote™, ammonium nitrate) or organic N (Argrow™, liquid arginine), hypothesising that organic N confers drought resilience by increasing water use efficiency (WUE).• Seedlings were grown in a glasshouse for 12 weeks with organic or inorganic N in well-watered conditions, and then half the seedlings were subjected to water limitation for a further 4 weeks.• A. mangium grew equally well on all N sources, but water limitation reduced biomass production. In contrast, N sources but not water regimes influenced biomass production in A. petriei. Under water limitation, arginine-supplied A. petriei had higher WUE and more depleted leaf δ 13 C than inorganic N-supplied plants.• Our results suggest that organic N in the form of arginine can regulate stomatal conductance in A. petriei to convey drought resilience in seedlings. The generality of these findings should be explored to evaluate if organic N is a feasible source for generating drought-resilient seedlings for restoration plantings.

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The role of nitrogen in enhancing the resilience of tropical tree seedlings used for restoration

Krishnan¹

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Vithya Krishnan

Without management interventions, endemic wet‐sclerophyll forest is transitioning to rainforest in World Heritage listed K’gari (Fraser Island), Australia

Organic nitrogen improves the water use of tropical tree seedlings cultivated for restoration plantings

The role of nitrogen in enhancing the resilience of tropical tree seedlings used for restoration

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