Lisa O. Knowles scite author profile

Lisa O. Knowles

5Publications

175Citation Statements Received

56Citation Statements Given

How they've been cited

220

158

How they cite others

109

Affiliations

Washington State University, University of Alberta, Michigan State University

Publications

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Manipulating Stem Number, Tuber Set, and Yield Relationships for Northern‐ and Southern‐Grown Potato Seed Lots

Knowles

2006

Crop Science

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The ability to predict tuber set and size development for a particular lot of seed potatoes (Solanum tuberosum L) would facilitate the development of techniques for optimizing tuber grade. Toward this goal, stem number, tuber set, yield, and grade relationships were manipulated and modeled for northern-(Alberta, Canada) and southerngrown (Montana and Washington) Ranger Russet and Russet Burbank seed potatoes. Seed-tubers with a range in apical dominance were produced by varying the temperature (aging) at the beginning of a 200-d storage period. Seed source affected stem numbers, tuber set, and size, with southern seed producing more but smaller tubers than northern seed; however, seed source had no effect on total and U.S. No. 1 tuber yields. Tuber set and size distributions were highly correlated with stem numbers, the latter increasing substantially when storage degree days were held constant but temperature was increased. Changes in tuber size distribution with increasing stems occurred with relatively little effect on total, U.S. No. 1, and marketable tuber yields. Therefore, in a long growing season area like the Columbia Basin, adding heat units to seed at the beginning of storage effectively alters tuber size distribution. The differential behavior of these seed sources, along with the ability to predict tuber set and size from mainstem numbers, provides an opportunity to adjust agronomic practices to optimize yield for specific markets.

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Glycoalkaloid Development during Greening of Fresh Market Potatoes (Solanum tuberosum L.)

Grunenfelder

Knowles

Hiller

et al. 2006

J. Agric. Food Chem.

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Chlorophyll and glycoalkaloid synthesis in potato (Solanum tuberosum L.) tubers occur in direct response to light. The two processes are concurrent, but independent. Color photographic indices to subjectively grade fresh market potatoes for the extent of greening were developed under lighting conditions consistent with those of retail markets. Total glycoalkaloid (TGA) and chlorophyll accumulation for four cultivars were determined over the respective greening scales, thus calibrating the scales for TGA content. On average, TGA concentrations in complete longitudinal sections of tubers (flesh samples) were highest in Dark Red Norland followed by Russet Norkotah, Yukon Gold, and White Rose. TGA concentrations of flesh samples of White Rose and Yukon Gold tubers were somewhat variable and did not increase in direct proportion to greening level and chlorophyll content, particularly at higher levels of greening. TGA concentrations in Dark Red Norland and Russet Norkotah tubers were highly correlated (P < or = 0.001) with greening level and chlorophyll concentrations. When averaged over greening levels, skin samples contained 3.4- to 6.8-fold higher concentrations of TGAs than flesh samples, depending on the cultivar. The TGA concentration in periderm samples ranged from 37 to 160 mg/100 g of dry wt. Regardless of greening level, concentrations of TGAs in the flesh samples (including attached periderm) remained within limits presumed safe for human consumption. Discrimination of greened tubers on the basis of perceived glycoalkaloid toxicity is likely unfounded for the cultivars and greening levels studied.

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Sweetening responses of potato tubers of different maturity to conventional and non-conventional storage temperature regimes

Knowles

Driskill

Knowles

2009

Postharvest Biology and Technology

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High-Resolution Aerial Imaging Based Estimation of Crop Emergence in Potatoes

et al. 2017

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In-season heat stress compromises postharvest quality and low-temperature sweetening resistance in potato (Solanum tuberosum L.)

Zommick

Knowles

Pavek

et al. 2014

Planta

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The effects of soil temperature during tuber development on physiological processes affecting retention of postharvest quality in low-temperature sweetening (LTS) resistant and susceptible potato cultivars were investigated. 'Premier Russet' (LTS resistant), AO02183-2 (LTS resistant) and 'Ranger Russet' (LTS susceptible) tubers were grown at 16 (ambient), 23 and 29 °C during bulking (111-164 DAP) and maturation (151-180 DAP). Bulking at 29 °C virtually eliminated yield despite vigorous vine growth. Tuber specific gravity decreased as soil temperature increased during bulking, but was not affected by temperature during maturation. Bulking at 23 °C and maturation at 29 °C induced higher reducing sugar levels in the proximal (basal) ends of tubers, resulting in non-uniform fry color at harvest, and abolished the LTS-resistant phenotype of 'Premier Russet' tubers. AO02183-2 tubers were more tolerant of heat for retention of LTS resistance. Higher bulking and maturation temperatures also accelerated LTS and loss of process quality of 'Ranger Russet' tubers, consistent with increased invertase and lower invertase inhibitor activities. During LTS, tuber respiration fell rapidly to a minimum as temperature decreased from 9 to 4 °C, followed by an increase to a maximum as tubers acclimated to 4 °C; respiration then declined over the remaining storage period. The magnitude of this cold-induced acclimation response correlated directly with the extent of buildup in sugars over the 24-day LTS period and thus reflected the effects of in-season heat stress on propensity of tubers to sweeten and lose process quality at 4 °C. While morphologically indistinguishable from control tubers, tubers grown at elevated temperature had different basal metabolic (respiration) rates at harvest and during cold acclimation, reduced dormancy during storage, greater increases in sucrose and reducing sugars and associated loss of process quality during LTS, and reduced ability to improve process quality through reconditioning. Breeding for retention of postharvest quality and LTS resistance should consider strategies for incorporating more robust tolerance to in-season heat stress.

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Lisa O. Knowles

Manipulating Stem Number, Tuber Set, and Yield Relationships for Northern‐ and Southern‐Grown Potato Seed Lots

Glycoalkaloid Development during Greening of Fresh Market Potatoes (Solanum tuberosum L.)

Sweetening responses of potato tubers of different maturity to conventional and non-conventional storage temperature regimes

High-Resolution Aerial Imaging Based Estimation of Crop Emergence in Potatoes

In-season heat stress compromises postharvest quality and low-temperature sweetening resistance in potato (Solanum tuberosum L.)

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