-
ARMSTRONG W. 1979. Aeration in higher plants. Advances in Botanical Research 7: 225–331.
-
BROKER LE, KRUYT FA, and GIACCONE G. 2005. Cell death independent of caspases: a review. Clinical Cancer Research11: 3155–3162.
-
BRAILSFORD RW, VOESENEK LACJ, BLOM CWPM, SMITH AR, HALL MA, and JACKSON MB. 1993. Enhanced ethylene productionby primary roots of Zea mays L. in response to subambientpartia1 pressures of oxygen. Plant, Cell andEnvironment 16: 1071–1080.
-
COLMER TD. 2003. Long-distance transport of gases in plants: a perspective on internal aeration and radial oxygen loss from roots. Plant, Cell and Environment 26: 17–36.
-
DANON A, DELORME V, MAILHAC N, and GALLOIS P. 2000. Plant programmed cell death: A common way to die. Plant Physiology and Biochemistry 38: 647–655.
-
DANON A, and GALLOIS P. 1998. UV-C radiation induces apoptotic- like changes in Arabidopsis thaliana. FEBS Letters437: 131–136.
-
DINAKAR C, ABHAYPRATAP V, YEARLA SR, RAGHAVENDRA AS, and PADMASREE K. 2010. Importance of ROS and antioxidantsystem during the beneficial interactions of mitochondrialmetabolism with photosynthetic carbon assimilation.Planta 231: 461–474.
-
DREW MC. 1997. Oxygen deficiency and root metabolism: injury and acclimation under hypoxia and anoxia. Annual Review of Plant Physiology and Plant Molecular Biology 48: 223–250.
-
DREW MC, HE CJ, and MORGAN PW. 2000. Programmed cell death and aerenchyma formation in roots. Trends in Plant Science 5: 123–127.
-
EVANS DE. 2003. Aerenchyma formation. New Phytologist 161: 35–49.