Rameez Ahmad scite author profile

In an era of climate change, biological invasions by alien species represent one of the main anthropogenic drivers of global environmental change. The present study, using an ensemble modelling approach, has mapped current and future global distribution of the invasive Leucanthemum vulgare (Ox-eye Daisy) and predicted the invasion hotspots under climate change. The current potential distribution of Ox-eye Daisy coincides well with the actual distribution records, thereby indicating robustness of our model. The model predicted a global increase in the suitable habitat for the potential invasion of this species under climate change. Oceania was shown to be the high-risk region to the potential invasion of this species under both current and future climate change scenarios. The results revealed niche conservatism for Australia and Northern America, but contrastingly a niche shift for Africa, Asia, Oceania and Southern America. The global distribution modelling and risk assessment of Ox-eye Daisy has immediate implications in mitigating its invasion impacts under climate change, as well as predicting the global invasion hotspots and developing region-specific invasion management strategies. Interestingly, the contrasting patterns of niche dynamics shown by this invasive plant species provide novel insights towards disentangling the different operative mechanisms underlying the process of biological invasions at the global scale.

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Impact of climate change on the distribution range and niche dynamics of Himalayan birch, a typical treeline species in Himalayas

Hamid

et al. 2018

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Subclinical cardiovascular disease in patients with chronic obstructive pulmonary disease: a systematic review

Wang

Younus

Malik

et al. 2016

QJM

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Predicting invasion potential and niche dynamics of Parthenium hysterophorus (Congress grass) in India under projected climate change

et al. 2019

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Rameez Ahmad

Global distribution modelling, invasion risk assessment and niche dynamics of Leucanthemum vulgare (Ox-eye Daisy) under climate change

Impact of climate change on the distribution range and niche dynamics of Himalayan birch, a typical treeline species in Himalayas

Subclinical cardiovascular disease in patients with chronic obstructive pulmonary disease: a systematic review

Predicting invasion potential and niche dynamics of Parthenium hysterophorus (Congress grass) in India under projected climate change

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