+ Site Statistics
+ Search Articles
+ Subscribe to Site Feeds
EurekaMag Most Shared ContentMost Shared
EurekaMag PDF Full Text ContentPDF Full Text
+ PDF Full Text
Request PDF Full TextRequest PDF Full Text
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter
Follow on Google+Follow on Google+
Follow on LinkedInFollow on LinkedIn

+ Translate

Asphyxiation and ways of increasing asphyxiation resistance in cultivated plants

Acta Horticulturae (81): 123-127

Asphyxiation and ways of increasing asphyxiation resistance in cultivated plants

Physiological changes occurring during asphyxiation of bark and cambium at the base of the stem under snow were investigated in a wide range of woody species including Siberian apricot Ussurian plum (P. ussuriensis) and bird cherry A cool, damp summer was associated with a greater incidence of winter asphyxiation than was a hot dry summer which induced deeper tissue dormancy. The nearer the temperature to 0 deg C under snow cover the more widespread was asphyxiation.

Accession: 000601291

Related references

Reiss, M.; Haurowitz, F., 1929: The resistance of young and old animals to asphyxiation. Old mice suc- cumb rapidly in an atmosphere of CO, H2 or CO2. Young animals survive a long time under the same conditions. Old mice die rapidly from a lethal dose of strychnine or after their necks are placed in a clamp. Young mice live a long tim...

Van Harreveld, A., 1941: The resistance of central synaptic conduction to asphyxiation. The survival time of reflex action potentials of the spinal cord after transection of the abdominal aorta was detd. in spinal animals. The avg. time was 3 min. 22 sec., ranging from 2 min. 25 sec. to 4 min. 35 sec. The survival time was detd. in t...

Burdasov, Vm, 1985: Asphyxiation and methods of decreasing its effects in fruit plants. Acta Horticulturae 168: 153-160

Putov, Vs, 1982: Plum breeding for resistance to asphyxiation in the Altai Territory. Biulleten' Vsesoiuznyi institut rastenievodstva: 23) 28-30

Burdasov, Vm, 1976: Physiology of asphyxiation of orchard plants Apricots, Prunus padus

Saunier, R., 1966: A method of determining the resistance of some fruit tree rootstocks to root asphyxiation. Young seedling and clonal plants representing a number of widely used rootstocks were subjected to controlled flooding for various periods of up to 130 days to evaluate their powers of recovery. They were classified in the following 3 groups in de...

Korneev, V.; Surganova, L.; Chadaeva, L.; Kuznetsova, O., 1983: Resistance of winter wheat to asphyxiation and ice crust under conditions of the Leningrad Region. Biulleten' Vsesoiuznyi institut rastenievodstva: 32) 40-43

Kornnev, V.; Berliand-Kozhevnikov, V., 1980: Methods of evaluation of winter cereals resistance to plant asphyxiation under snow cover. Trudy po prikladnoi botanike genetike i selektsii6(1): 37-48

Vinogradova, V.; Korneev, V., 1981: Dynamics of nitrogenous substances in winter wheat plants under conditions of asphyxiation under snow cover. Trudy po prikladnoi botanike genetike i selektsii1(1): 114-125

Khabarov, S.; Subbotin, G., 1980: Increasing the productivity of ground cherries Prunus fruticosa, protection from plant asphyxiation under snow cover by shelterbelts, North Kazakhstan, Western Siberia.1. Sadovodstvo (2) 24-25