Results 181 to 190 of about 2,030 (204)

Measurement of Soil‐grown Roots in a Rhizotron¹

Agronomy Journal, 1970
AbstractMeasurements were made of both shoot and root growth on a corn (Zea mays L.) and a tomato (Lycopersicon esculentum Mill.) plant in a rhizotron. Root intensity at the transparent panel was estimated by two methods. It increased during the growing season for both species, but was always greater for corn.
H. M. Taylor, M. G. Huck, Betty Klepper, Z. F. Lund   +3 more
openaire   +1 more source

Portable rhizotron and color scanner system for monitoring root development

Plant and Soil, 1998
Rhizotrons allow the examination of spatial and temporal in situ root development. Permanent rhizotron installations provide 2-D images of whole root profiles, but their immobility limits the number of soil-plant systems that can be studied. Our objectives were to develop a portable rhizotron and color scanning system for studying the development of ...
W.L. Pan, R.P. Bolton, E.J. Lundquist, L.K. Hiller   +3 more
exaly   +2 more sources

Root production in contrasting ecosystems: the impact of rhizotron sampling frequency

Plant Ecology, 2016
Despite their critical role in every terrestrial ecosystem, fine root production and mortality have not been widely compared among systems due to the practical difficulties of belowground research.
Vasiliki G. Balogianni, Gesche Blume-Werry, Scott D. Wilson   +2 more
openaire   +1 more source

Novel 3D imaging of root systems grown in slab-shaped rhizotrons

2020
<p>Complex plant-soil interactions can be visualized and quantified by combined application of different non-invasive imaging techniques. Oxygen, carbon dioxide and pH gradients in the rhizosphere can be observed with fluorescent planar optodes, while neutron radiography detects small-scale heterogeneities in soil moisture and ...
Sarah Bereswill, Nicole Rudolph-Mohr, Christian Tötzke, Nikolay Kardjilov, André Hilger, Sascha Oswald   +5 more
openaire   +1 more source

Device for Removing Mini – Rhizotrons from the Field¹

Agronomy Journal, 1983
AbstractMini‐rhizotrons (glass or acrylic tubes) are gaining widespread usage as an acceptable means for observing in situ plant root growth under field conditions. These transparent tubes are placed in the soil to various depths, and roots growing against the surface of the tube are observed throughout the season. It is difficult to remove intact mini‐
B. L. McMichael, A. D. Brashears
openaire   +1 more source

Rhizotron studies on Zea mays L. to evaluate biocontrol activity of Bacillus subtilis

World Journal of Microbiology and Biotechnology, 2007
The effect of Bacillus as a biocontrol agent against some root-rot fungi was tested using maize (Zea mays L.) in rhizotrons placed in a growth chamber with relative humidity 60% with a 12 h photoperiod and day and night temperatures of 24 and 18°C respectively.
Esther Obiageli Ugoji, Mark D. Laing
openaire   +1 more source

Using rhizotrons to estimate the dynamics of additional cohesion

2012
absent
Wang, Yan, Kim, John, Jourdan, Christophe, Rey, Hervé, Stokes, Alexia, Mao, Zhun   +5 more
openaire   +1 more source

Monitoring Corn Root Development with a Mini‐Rhizotron in Confined Growth Boxes

Agronomy Journal, 1988
AbstractNondestructive monitoring of the dynamic growth of crop root systems is important for research and teaching procedures studying root response to soil environment. Two commonly used nondestructive methods are (i) traditional rhizotrons that use flat‐sided viewing panels for root observaton, and (ii) mini‐rhizotrons that use viewing tubes and ...
openaire   +1 more source

A Simple Pump for Extracting Water from Neutron Access Tubes and Mini‐Rhizotrons

Agronomy Journal, 1988
AbstractWater in neutron‐probe access tubes and mini‐rhizotrons impedes the acquisition of accurate data under wet field conditions. When such situations arise, water must be extracted before data can be taken. The objective was to design, construct, and use a pump that would be easy to operate, portable, and inexpensive.
openaire   +1 more source

Rhizosphere chemistry and soil exploration by seedlings of beech and spruce in a rhizotrone experiment

2001
The below ground activity of plants like rhizosphere effects and soil exploration may be an important factor regulating intra- and interspecific competition. Thus we compared young plants of Norway spruce and Europe beech in a rhizotrone experiment with respect to rhizosphere chemistry, rooting system and efficiency parameters.
Z. Wang, A. Göttlein
openaire   +1 more source