The Effects of Supra-Optimal Root Zone Temperature and Arbuscular Mycorrhizal Fungi on the Phytonutritional Quality and Growth of Red Onion (Allium cepa L.) cv. 'Rossa di Milano' and Strawberry (Fragaria x ananassa Duch.) cv. 'Chandler'

Short, Stephanie

19 October 2011

No description available.

Agriculture

Biochemistry

Horticulture

Plant Biology

Plant Sciences

phytonutrients

root zone temperature

arbuscular mycorrhizal fungi

strawberry

red onion

Color and shading of containers affects root-zone temperatures and growth of nursery plants

Markham, John W. III

January 1900

Master of Science / Department of Horticulture, Forestry, and Recreation Resources / Dale J. Bremer / Heat stress is an important problem in potted nursery plants, but container color may moderate effects of solar radiation on container soil temperatures. Field studies were conducted near Manhattan, Kansas, USA during summer to evaluate effects of container color on growth of roots and aboveground biomass in: bush beans (Phaseolus vulgaris); red maple (Acer rubrum); and eastern redbud (Cercis canadensis). In the tree studies, effects of shaded soil-surfaces on plant growth were also evaluated. Four treatments among studies included containers colored black (control), flat white, gloss white, and silver, with two additional treatments in the tree studies of green and black containers with shaded soil surfaces (black shaded); treatments were arranged in a completely randomized design. Plants were grown in a bark-based soil-less media, and temperatures were measured at 5 cm depths in the sun-facing sides and centers in five containers per treatment. After four months (June-October), plant variables were measured. Roots were separated into three sections: core (10.2 cm diam.), north, and south, rinsed of all media, dried and weighed. In the bean study, media temperatures at the sun-facing side averaged lowest in gloss and flat white (~36 oC) and greatest in the black control (50.3 oC). Accordingly, total root biomass at the sun-facing side was reduced by 63 to 71% in black compared to flat and gloss white containers. In heat-sensitive maples, media temperatures at the sun-facing side averaged up to 7.7 oC greater in black, black shade and green than in other treatments; temperatures in black shade may have been lower if shade cloth had covered the sun-facing sides of containers in addition to only the media surface. Media temperatures in the core averaged 3.5 to 3.8 oC greater in black than in flat and gloss white, resulting in up to 2.5 times greater belowground biomass and up to 2.3 times greater aboveground biomass in flat and gloss white than in black pots. In heat-tolerant redbuds, the effects of container color on whole-plant growth were less evident. Data suggests that heat-sensitive plants benefit from using white pots or painting outer surfaces of green and black pots white.

Heat stress

Nursery plants

Container color

Container temperature

Root zone temperature

Root zone growth

Agriculture, General (0473)

Agriculture, Plant Culture (0479)

Effects of Air vs. Air+Soil Heating During a Simulated Heat Wave on White Oak (Quercus alba) and Black Oak (Quercus velutina)

Lightle, Nicole E.

22 August 2013

No description available.

Ecology

Environmental Science

Forestry

Physiology

Plant Sciences

Plant Biology

Urban Forestry

acute heat

heat stress

heat wave

extreame weather

soil heating

superoptimal temperature

root zone temperature

global climate change

white oak

black oak

Quercus

forest mortality

thermotolerance

photosynthesis

root respiration

ABA