Calcium chloride reduces rain cracking in sweet cherries
Rain cracking of sweet cherry fruit is a worldwide problem and has resulted in substantial crop losses of California cherries in each of the past 4 years (1993–1996). Various strategies to reduce cracking have provided inconsistent results. During 1996, however, rain-timed...
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University of California Agriculture and Natural Resources
1997-09-01
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| Series: | California Agriculture |
| Online Access: | http://calag.ucanr.edu/archive/?article=ca.v051n05p35 |
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doaj-a49e539a317b42d4be040ae76aa94a6e2020-11-25T02:29:15ZengUniversity of California Agriculture and Natural ResourcesCalifornia Agriculture0008-08452160-80911997-09-01515354010.3733/ca.v051n05p3510.3733/cav051n05_14Calcium chloride reduces rain cracking in sweet cherriesMichael Rupert0Stephen Southwick1Kitren Weis2John Vikupitz3James Flore4Hong Zhou5M. Rupert is Postgraduate Researcher, Department of Pomology, UC DavisS. Southwick is Extension Pomologist, Department of Pomology, UC DavisK. Weis is Postgraduate Researcher, Department of Pomology, UC DavisJ. Vikupitz is Product Manager, Netafim Irrigation, Inc., FresnoJ. Flore is Professor of Horticulture, Michigan State UniversityZhou is Statistician, Department of Statistics, UC DavisRain cracking of sweet cherry fruit is a worldwide problem and has resulted in substantial crop losses of California cherries in each of the past 4 years (1993–1996). Various strategies to reduce cracking have provided inconsistent results. During 1996, however, rain-timed applications of calcium chloride (CaCl2) via overtree sprinklers reduced the overall percentage of rain-cracked ‘Bing’ cherry fruit by nearly half at three locations in the Central Valley. Although these results were obtained in only one season, their consistency across sites is encouraging. In addition, a preliminary observation suggests this calcium treatment may also reduce postharvest disorders of rain-exposed fruit without affecting fruit firmness, size or weight. Some marginal leaf necrosis was noted at one site, suggesting that application rates may need to be adjusted. Overtree delivery of calcium chloride during rain provides the potential for cherry growers to reduce fruit cullage from rain. While the setup and operational costs are substantial, the increases in marketable fruit may make this system a profitable investment.http://calag.ucanr.edu/archive/?article=ca.v051n05p35 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Michael Rupert Stephen Southwick Kitren Weis John Vikupitz James Flore Hong Zhou |
| spellingShingle |
Michael Rupert Stephen Southwick Kitren Weis John Vikupitz James Flore Hong Zhou Calcium chloride reduces rain cracking in sweet cherries California Agriculture |
| author_facet |
Michael Rupert Stephen Southwick Kitren Weis John Vikupitz James Flore Hong Zhou |
| author_sort |
Michael Rupert |
| title |
Calcium chloride reduces rain cracking in sweet cherries |
| title_short |
Calcium chloride reduces rain cracking in sweet cherries |
| title_full |
Calcium chloride reduces rain cracking in sweet cherries |
| title_fullStr |
Calcium chloride reduces rain cracking in sweet cherries |
| title_full_unstemmed |
Calcium chloride reduces rain cracking in sweet cherries |
| title_sort |
calcium chloride reduces rain cracking in sweet cherries |
| publisher |
University of California Agriculture and Natural Resources |
| series |
California Agriculture |
| issn |
0008-0845 2160-8091 |
| publishDate |
1997-09-01 |
| description |
Rain cracking of sweet cherry fruit is a worldwide problem and has resulted in substantial
crop losses of California cherries in each of the past 4 years (1993–1996). Various
strategies to reduce cracking have provided inconsistent results. During 1996, however,
rain-timed applications of calcium chloride (CaCl2) via overtree sprinklers reduced the overall percentage of rain-cracked ‘Bing’ cherry
fruit by nearly half at three locations in the Central Valley. Although these results
were obtained in only one season, their consistency across sites is encouraging. In
addition, a preliminary observation suggests this calcium treatment may also reduce
postharvest disorders of rain-exposed fruit without affecting fruit firmness, size
or weight. Some marginal leaf necrosis was noted at one site, suggesting that application
rates may need to be adjusted. Overtree delivery of calcium chloride during rain provides
the potential for cherry growers to reduce fruit cullage from rain. While the setup
and operational costs are substantial, the increases in marketable fruit may make
this system a profitable investment. |
| url |
http://calag.ucanr.edu/archive/?article=ca.v051n05p35 |
| work_keys_str_mv |
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