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Growth and yield of certain Gramineae as influenced by reduction of photosynthetic tissue
Authors
Kenneth W. ParkerArthur W. Sampson
Authors Affiliations
Kenneth W. Parker was Technical Assistant in Forestry; Arthur W. Sampson was Associate Professor of Forestry and Plant Ecologist in the Experiment Station.Publication Information
Hilgardia 5(10):361-381. DOI:10.3733/hilg.v05n10p361. March 1931.
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Abstract
Abstract does not appear. First page follows.
A few investigations have shown the influence of the reduction of chlorophyll-bearing tissue on the carbohydrate concentration, and on the yield of fruit, grain, or herbage following removal of the aerial growth. Because of the difficulty of observing closely the parts below ground, however, few detailed studies have been reported which show the effect of the removal of top growth on the development of the plant as a whole, including the roots. The extent to which root development may be correlated with yield, also, is little understood. Further knowledge of such correlations appears to afford both scientific and practical possibilities.
Grasses were used in the studies here reported. The experiment was designed to obtain information on the following points: (1) the effect of removal of tops on root growth; (2) the effect of removal of tops on the yield and on the regeneration of the aerial growth; (3) the growth rate and the yield of non-harvested (undisturbed) plants. Study on the last mentioned phase was essential as a means of comparison.
The difficulty of observing and measuring roots was overcome by growing the plants in a nutrient solution.
Literature Cited
[1] Barker B. T. P. Studies on root development. Univ. Bristol Agr. and Research Sta. Ann. Report. 1921. p. 9-20. DOI: 10.1007/BF00019516 [CrossRef]
[2] Chandler W. H. Some results as to the response of fruit trees to pruning. Amer. Soc. Hort. Science. 1919. 16:88-101.
[3] Chandler W. H. Fruit growing. 1925. Boston: Houghton Mifflin Co. 777p. p., figs. 1-60
[4] Curtis O. F. Stimulation of root growth in cuttings by treatment with chemical compounds. New York Agr. Exp. Sta. (Cornell) Memoir. 1918. 14:71-138. figs. 1-8 DOI: 10.5962/bhl.title.57587 [CrossRef]
[5] Howard W. L. An experimental study of the rest period in plants—pot grown woody plants. Missouri Agr. Exp. Sta. Res. Bul. 1915. 16:1-27. figs. 1-12
[6] Janse J. M. Ernahrung, Adventivbildung und Polaritat. Flora; oder, Allgemeine Botanische Zeitung. Jena. 1925. 118-119:257-288.
[7] Lehenbauer P. A. Growth of maize seedlings in relation to temperature. Physiological Researches. 1914. 1:247-287. figs. 1-4
[8] Loeb Jacques. Theory of regeneration based on mass action. Jour. Gen. Physiology. 1924. 6:207-214. figs. 1-2 DOI: 10.1085/jgp.5.6.831 [CrossRef]
[9] MacDougal W. B. The growth of forest tree roots. Amer. Jour. Botany. 1916. 3:384-392. DOI: 10.2307/2435018 [CrossRef]
[10] Mevius W. Kalzium-Ion und Wurzelwachstum. Jahrbucher fur Wiss. Bot. 1926. 66:183-253. figs. 1-20
[11] Priestley J. H., Pearsall W. H. Growth studies III. A ‘volumometer’ method of measuring the growth of roots. Annals of Botany (London). 1922. 36:485-489. fig. 1
[12] Reed H. S., Holland R. H. The growth rate of an annual plant Helianthus. Proc. Nat. Acad. of Sci. 1919. 5:135-144. figs. 1-3 DOI: 10.1073/pnas.5.4.135 [CrossRef]
[13] Sampson Arthur W. Climate and plant growth in certain vegetative associations. U. S. Dept. Agr. Bul. 1918. 700:1-72. figs. 1-37 DOI: 10.5962/bhl.title.64495 [CrossRef]
[14] Sampson Arthur W., Malmsten Harry E. Grazing periods and forage production on the national forests. U. S. Dept. Agr. Bul. 1926. 1405:1-54. DOI: 10.5962/bhl.title.64904 [CrossRef]
[15] Sampson Arthur W., McCarty E. C. The carbohydrate metabolism of Stipa pulchra. Hilgardia. 1930. 5 p. 62-100. figs. 1-16 DOI: 10.3733/hilg.v04n06p153 [CrossRef]
[16] Singh K. Development of root system of wheat in different kinds of watering. Ann. of Bot. ((London). 1922. 36:353-360. figs. 1-3
[17] Stirrup H. H. The effect of semi-defoliation in root crops. Agr. Progress (Published by Jour. Agr. Education Association, London). 1925. 2:109
[18] Thompson D’Aroy Wentworth. Growth and form. Cambridge Univ. Press. 1917. 15:793 figs. 1-408 DOI: 10.5962/bhl.title.11332 [CrossRef]
[19] Seelhorst Von. Neuer Beitrag zur Frage des Einfusses des Wassergeholts des Bodens auf die Entwicklung der Pflanzen. (Hierzu Tof. I-II). Jour. fur Landwirtshaft. 1900. p. 165-177.
[20] Weaver J. E. Root development of field crops. 1926. New York: McGraw Hill Book Co. 291p. p., 116 figs
[21] West C., Briggs G. E., Kidd F. Methods and significant relations in the quantitative analysis of plant growth. New Phytol. 1919. 19:200-207. DOI: 10.1111/j.1469-8137.1920.tb07327.x [CrossRef]
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