Search Results

You are looking at 81 - 90 of 348 items for :

  • source-sink relationships x
  • Refine by Access: User-accessible Content x
Clear All
Free access

Shanshan Seng, Jian Wu, Jiahui Liang, Fengqin Zhang, Qiuyan Yang, Junna He, and Mingfang Yi

carbohydrate, and also functions to balance source and sink metabolites ( Yu et al., 2015 ). Sucrose produced in leaves is transported into underground organs (new corm and cormels) where it is used for starch synthesis by AGPase. Starch synthesis and

Open access

Russell Galanti, Alyssa Cho, Amjad Ahmad, and Javier Mollinedo

, 1992 ). Seasonal source–sink relationships between vegetative and reproductive growth also influence leaf N status; for example, developing fruits during the summer act as an N sink ( Fletcher et al., 2009 ). While it is known that increasing N supply

Full access

George Hochmuth, Terril Nell, J. Bryan Unruh, Laurie Trenholm, and Jerry Sartain

source of nutrients in the ordinances. However, at this time, only Florida appears to have laws banning fertilizer application and fertilizer sales during the summer growing period for turfgrass. Relationship of lawn fertilization practices to leaching

Open access

Shing-Shan Tsai and Yao-Chien Alex Chang

, plant nutrient status can also influence flower initiation and development. When a plant switches its growth from vegetative to reproductive, the sink and source relationship among plant organs is also altered, which leads to changes in nutrient

Free access

Justine E. Vanden Heuvel and Carolyn J. DeMoranville

.C. Vorsa, N. Poole, A.P. 1996 Fruit mass development in three cranberry cultivars and five production regions J. Amer. Soc. Hort. Sci. 121 680 685 Fernandez, G.E. Pritts, M.P. 1994 Growth, carbon acquisition, and source-sink relationships in ‘Titan’ red

Free access

He Lisi, Su Jiale, Liu Xiaoqing, Li Chang, and Chen Shangping

Sucrose is the principal sugar in plants and plays a vital role in plant growth and development ( Rolland et al., 2006 ) by serving as a critical molecule for carbohydrate and energy flow from source organs to sink organs ( Salerno and Curatti, 2003

Free access

Thomas E. Marler

formation on large stem cuttings. The direct relationship between carbohydrate status at the time of stem excision and propagation success rates indicates that the inclusion of a plant physiologist with knowledge of source–sink relations may be a

Free access

Cheng Bai, Charles C. Reilly, and Bruce W. Wood

-associated composition likely differs depending upon relative proximity to sinks (e.g., shoots) and sources (e.g., roots). Nickel deficiency quantitatively alters xylem sap ureido-N composition in a manner similar to that observed in actively growing Ni-deficient pecan

Free access

Xinwang Zhang, Ikuo Nakamura, and Masahiro Mii

. parodii Steere [= P. axillaris subsp. parodii (Steere) Cabrera ] with white flowers have also been proposed as a likely parent of garden petunias ( Sink, 1975 ). Thus, it was a common idea that the garden petunias have been bred through cross

Free access

W. Roland Leatherwood, John M. Dole, and James E. Faust

plants and many other herbaceous species to increase branching and abscise sink tissues. Ethephon is lipophilic and, on entering the relatively more basic apoplastic environment, undergoes a degradation reaction releasing ethylene, Cl – , and H 2 PO 4