The distribution and functioning of rhizosheaths among South African grass species

Bailey, Catherine Lara

06 June 2016

A dissertation submitted to the Facult:y of Science, University of the Witwatersrand, Johannesburg, for the degree of Master of Science, Johannesburg 1994 / Rhizosheaths are sandy coatings covering ~ ~ entire length of the roots of many grass species~ .: They consLab of a mass of sand and silica particles en4?eddedin a mucilaginous layer and are matted togethel.· by a meahwozk of prolific epidermal had.ns, A study of the phenomenon of zhd aosheat.ha in South African grasses was undertaken. Aspects which were invest.igated include the occurrence of rhizosheaths amongSouth African grasses and the influence of environmental ccndftions on th.e presenc~ and , extent of rhizosheath development. In addition, information was ~fsll!led on their possible functions in terms of their contribution (s ) to plant vigour, through their influence on (1 nutrient and water uptake, particularly in low nutrient soil~ in '~\ ;'';-''>"\\ arid areas. An extensive surv,sy of herbal:"iul!lspecimens was conducted at the .. National Herbarium in Pretoria. It Wasfound that the presence" of rhizosheaths is a genetically fixed trait, occurring in the majority of gra~s species in south Africa. The extent to which sheaths develop (the thickness of the sheat.h and the degree 'to which the soil particles are bound to the sheath), varies between, and sometimes wi thin;) species. ~< Ii' Seeds of three sheath forming grass spccf.es which occur in South Africa, Anthephora pubescens Nees, Digitaria exientib« Steud and Eragrostis pallens Hade, were gr.ownundez different condi.t.Lona of soil texture and different conditions of water and nutrient (nitrogen (N') and phosphorus: (P) aVailability. Sheath development was found to be more extensive the higher the sand (relative/.: to clay) content in the soil. In addition, rhizoFlheaths developed to a greater extent in sandy soil with high watsr and nutrient availabilityu Therefore, the extent to whi;chsheaths develop is a facultative response directly to sandy soil, rather than toe resulting lower water and nutrient availability in this snil. A:fter \: Jtudying a number of physiological and morphological factors of the indiv~dua.ls in the different water and uutrient treatments it appeared that rhizosheaths compensate",dfor low water availability. In additionq sheaths appeared to «compensate -. I.' for low N availability when this 101;1T availability was a result of low soil water contentc The influence of sheath thickness on immobile nutrient ion uptake was investigated.. 'l'his was achieved by stimulating withinspeoies variation in sheath thiokness and mea.suring the difference in P uptake. The individuals with thick sheaths extracted more p from the. soil, and ~rom a greater volume of soil, than individuals with thin sheaths. This was particularly evident in conditi.ons of low P availabili,;ty i thereby highlighting , the important influence of thick rhizoshea,ths in soils with a low """" p status. The microbial biomass (as indicat;ed by t.he microbial Nand carbon concentrations) in the sheath soil was compared to that in the l?}y_k soil and the rliizosphe:r.e/out.er ,rhizosphere soil of r{ tinsheathed/sheathep, roots. Fromthi~ study it w~s concluded that rhj..zosheaths influence the"mic;:roorganisms in the soil ~djacent, \, to the root surface, since the l.hizosheath I')oil had a sigl,.ificantly higher microbial biomass than the soil .1:romthe other regions. " Fron\.the study it was concluded that the pzeaence of rhj.z6sheaths :maybe a mechanismemployed byce~tain grass species in order to enhance their ability to t.olera,te dry soil, which has J.owNand P availability. This mechanismmaybe a. sUbstitute for increased root production and root branching as well a~ increased mycorrhizal associations in plants in arid, low nutrient status soils~

Grasses--South Africa

Cytochemical studies of the embryo sac development in Paspalum longifolium Roxb.

January 1977

Yu Sau-hing. / Thesis (M.Ph.)--Chinese University of Hong Kong. / Bibliography: leaves 70-78.

Paspalum

Grasses

Plant embryology

Response of acridid grasshoppers to differential nitrogen treatments on tallgrass prairie

Torrence, John Douglas

January 2011

Digitized by Kansas Correctional Industries

PasturesKansas

Grasses--Fertilizers

Locusts

Comparative performance of N sources for smooth bromegrass, Bromus inermis L., and tall fescue, Festuca arundinacea Schreb.

Lamond, Ray Edward, 1951-

January 2011

Digitized by Kansas Correctional Industries

Grasses--FertilizersKansas

Fertilizers

An analysis of Thioredoxins h in the grasses / Juan Juttner.

Juttner, Juan Antony

January 2002

"December 2002" / Errata inside front cover. / Bibliography: leaves 148-176. / 176 leaves : ill. (some col.), plates ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Plant Science, 2003

Thioredoxin

Grasses Self-incompatibility.

SEED DORMANCY OF INDIAN RICEGRASS, ORYZOPSIS HYMENOIDES (ROEM. AND SCHULT) RICKER

Shalgam, Moftah Mohamed

January 1980

No description available.

Oryzopsis hymenoides.

Grasses -- Dormancy.

CYTOLOGY AND HISTOLOGY OF VINE MESQUITEGRASS (PANICUM OBTUSUM, H.B.K.)

Anderson, Carol Ann, 1939-

January 1972

No description available.

Panicum.

Grasses -- Arizona.

The effect of low soil temperatures on the growth and carbohydrate content of the roots of Lehmann lovegrass (Eragrostis Lehmanniana Nees.)

Stevens, Richard, 1940-

January 1968

No description available.

Love grass.

Grasses -- Arizona.

Daily and seasonal pollination cycles of various grasses

Milner, Grant F., 1934-

January 1964

No description available.

Grasses -- Arizona.

Fertilization of plants.

A technical study of the genera Stipa and Aristida of the family Gramineae in Arizona

Telford, Emery Alvon, 1881-

January 1933

No description available.

Stipa.

Aristida.

Grasses.