Use of gel additives for fluid drilled tomatoes

Minero Amador, Adolfo.

January 1986

No description available.

Plant growing media, Artificial.

Tomatoes -- Growth.

Superior utilization of patchy resources : a mechanism of overyielding in polycultures

Snook, Ann Elizabeth.

January 1986

No description available.

Intercropping.

Tomatoes -- Growth.

Beans -- Growth.

Companion planting.

Genetic and molecular investigation of self-incompatibility in species of tomato (Lycopersicon) /

Rivers, Bruce Allyn

01 January 1994

No description available.

Plants Self-incompatibility

Tomatoes Genetic aspects.

Tomato growth as influenced by nutrient solution concentration and soilless media components /

Mills, Gretchen E.

01 January 2000

No description available.

Artificial Plant growing media

Tomatoes Growth.

Calcium efficiency among tomato genotypes.

English, Jean Evelyn

01 January 1979

No description available.

Effect of minerals on Plants

Soils Calcium content

Tomatoes.

Phenolic compounds associated with host reaction in tomato in injury caused by root-knot and lesion nematodes.

Pi, Chia-ling

01 January 1966

No description available.

Phenols Physiological effect

Plant nematodes

Tomatoes.

The effects of ammonium nutrition on the structure and function of tomato leaf chloroplasts.

Puritch, George S.

01 January 1966

No description available.

Ammonium compounds Physiological effect

Chloroplasts

Tomatoes.

The effect of certain chemicals on the rate of respiration, firmness and color change of harvested tomato fruit.

Ismail, Amr Abdel Fattah

01 January 1964

No description available.

Fruit Ripening

Fruit-culture

Marketing Tomatoes.

Water stress as a factor effecting ribulose-1, 5-diphosphate carboxlyase activity, chlorophyll, and protein concentration in barley and tomato

Austin, Edwin W.

01 August 1972

Turgid, water stressed, and recovered leaf tissue from barley (var. Barbless) and tomato (var. VF 36 ) were analyzed for total chlorophyll, soluble protein, RuDPCase concentration, and RuDPCase specific activity. Water stress caused a reduction in all physiological characteristics measured. The reduction in concentration of chlorophyll, soluble protein and RuDPCase specific activity in both plants paralleled decreased water potential during first wilt. Changes associated with barley plants as compared to tomato first wilt plants were more pronounced. Barley lost 25% more water than tomato. Repeated wilt cycles increased sensitivity of tomato plants to reduction in chlorophyll content, soluble protein concentration, and RuDPCase specific activity. After a period of rewatering (24 hours) levels of chlorophyll content, soluble protein concentration, and RuDPCase specific activity returned to approximately control levels. Specific activity of RuDPCase is reduced even under low levels of water stress. Concentration of all soluble proteins are not equally reduced as a result of water stress. Total soluble protein was reduced 33% and RuDPCase 11% of control level.

Photosynthesis; Barley; Tomatoes

Life Sciences

Plant Sciences

The adaptation of spectrophotometric methods for determining the effect of variety, process and storage on the total carotene, lycopene and beta-carotene content of tomato juice and pulp

Wilson, Donald Elsworth

January 1952

No description available.

Agriculture

Tomatoes

Tomato juice

Carotenes

Lycopene