Professor

BSc, MSc (Kabul)
MSc, PhD (Western Ontario)
Post Doc (Calgary)
Office: (902) 457-5974
Lab: (902) 457-5972
mirwais.qaderi@msvu.ca

 

Research Website: Physiological Plant Ecology Lab

Research Interests

Plant responses to multiple components of climate change; Methane emissions from stressed plants

Recent Publications

Qaderi MM and Burton K (2024) Photoperiod regulates aerobic methane emissions by altering plant growth and physiological processes. Methane 3:380-396.

Evans CC and Qaderi MM (2024) Supplemental nitrogen alleviates the negative effects of higher temperature on the vegetative growth of canola regardless of carbon dioxide concentration. Plant Stress 13:100521,1-15.

Qaderi MM (2023) Environmental regulation of weed seed dormancy and germination. Seeds 2:259-277.

Qaderi MM, Martel AB and Strugnell CA (2023) Environmental factors regulate plant secondary metabolites. Plants 12:447,1-27.

LeFait BM and Qaderi MM (2022) Maternal environmental effects of temperature and exogenous gibberellic acid on seed and seedling traits of four populations of evening primrose (Oenothera biennis). Seeds 1:110-125.

Creelman C-RL and Qaderi MM (2021) Independent effects of blue light and abscisic acid on methane emissions from canola plants grown under sterile conditions. Theor Exp Plant Physiol 33:271-280.

Abo Gamar MI, Dixon SL and Qaderi MM (2021) Single and interactive effects of temperature, carbon dioxide and watering regime on plant growth and reproductive yield of two genotypes of Arabidopsis thaliana. Acta Physiol Plant 43:124,1-16.

Martel AB and Qaderi MM (2021) Exogenous ethylene increases methane emissions from canola by adversely affecting plant growth and physiological processes. Botany 99:421-431.

Martel AB, Taylor AE and Qaderi MM (2020) Individual and interactive effects of temperature and light intensity on canola growth, physiological characteristics and methane emissions. Plant Physiol Biochem 157:160-168.

Abdulmajeed AM and Qaderi MM (2020) Methane emissions from reproductive organs of pea plants exposed to multiple abiotic factors. Theor Exp Plant Physiol 32:79-87.

Abo Gamar MI, Kisiala A, Emery RJN, Yeung EC, Stone SL and Qaderi MM (2019) Elevated carbon dioxide decreases the adverse effects of higher temperature and drought stress by mitigating oxidative stress and improving water status in Arabidopsis thaliana. Planta 250:1191-1214.

Abdulmajeed AM and Qaderi MM (2019) Differential effects of environmental stressors on physiological processes and methane emissions of pea (Pisum sativum) plants at various growth stages. Plant Physiol Biochem 139:715-723.

Qaderi MM, Martel AB and Dixon SL (2019) Environmental factors influence plant vascular system and water regulation. Plants 8:65,1-23.

Abo Gamar MI and Qaderi MM (2019) Interactive effects of temperature, carbon dioxide and watering regime on seed germinability of two genotypes of Arabidopsis thaliana. Seed Sci Res 29:12-20.

Martel AB and Qaderi MM (2019) Unravelling the effects of blue light on aerobic methane emissions from canola. J Plant Physiol 233:12-19.

Abdulmajeed AM, Abo Gamar MI and Qaderi MM (2018) Inter- and intra-varietal variation in aerobic methane emissions from environmentally-stressed pea plants. Botany 96:837-850.