Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
de Ponti, O. M. B.
1976.
Breeding parthenocarpic pickling cucumbers (Cucumis sativus L.): Necessity, genetical possibilities, environmental influences and selection criteria.
Euphytica,
Vol. 25,
Issue. 1,
p.
29.
Lin, Steve
Splittstoesser, Walter E.
and
George, William L.
1983.
Factors controlling the expression of parthenocarpy in ‘Severianin’ tomato.
Scientia Horticulturae,
Vol. 19,
Issue. 1-2,
p.
45.
Kurtar, E.S.
2003.
An Investigation on Parthenocarpy in Some Summer Squash (Cucurbita
pepo L.) Cultivars.
Journal of Agronomy,
Vol. 2,
Issue. 4,
p.
209.
., Abdolghayoum Gholipo
and
., H. Nazarnejad
2007.
The Effect of Stem Pruning and Nitrogen Levels of on Some Physico-Chemical Characteristics of Pumpkin Seed (Cucurbita pepo L.).
Pakistan Journal of Biological Sciences,
Vol. 10,
Issue. 20,
p.
3726.
Bahrami, R. Nikkhah
Khodadadi, M.
Pirivatlo, S. Piry
and
Hassanpana, D.
2009.
The Effects of Planting Methods and Head Pruning on Seed Yield and Yield Components of Medicinal Pumpkin (Cucurbita pepo subsp. Pepo convar. Pepo var. styriaca) at Low Temperature Areas.
Pakistan Journal of Biological Sciences,
Vol. 12,
Issue. 6,
p.
538.
Martínez, Cecilia
Manzano, Susana
Megías, Zoraida
Garrido, Dolores
Picó, Belén
and
Jamilena, Manuel
2014.
Sources of parthenocarpy for Zucchini breeding: relationship with ethylene production and sensitivity.
Euphytica,
Vol. 200,
Issue. 3,
p.
349.
Li, Ji
Xu, Jian
Guo, Qin-Wei
Wu, Zhe
Zhang, Ting
Zhang, Kai-Jing
Cheng, Chun-yan
Zhu, Pin-yu
Lou, Qun-Feng
and
Chen, Jin-Feng
2017.
Proteomic insight into fruit set of cucumber (Cucumis sativus L.) suggests the cues of hormone-independent parthenocarpy.
BMC Genomics,
Vol. 18,
Issue. 1,
Craeye, S.
Decombel, A.
De Win, J.
and
Bleyaert, P.
2020.
Importance of a sufficiently high temperature to prevent male flower shortage in zucchini (Cucurbita pepo L.).
Acta Horticulturae,
p.
77.
Takisawa, Rihito
Ogawa, Megumi
Maai, Eri
Nishimura, Kazusa
Nakano, Ryohei
and
Nakazaki, Tetsuya
2021.
Characterization of Parthenocarpic Fruit of ‘Miyazaki-wase No. 1’, a Tropical Squash (<i>Cucurbita moschata</i> L.) Cultivar.
The Horticulture Journal,
Vol. 90,
Issue. 1,
p.
68.
Gou, Chenxing
Zhu, Pinyu
Meng, Yongjiao
Yang, Fan
Xu, Yan
Xia, Pengfei
Chen, Jinfeng
and
Li, Ji
2022.
Evaluation and Genetic Analysis of Parthenocarpic Germplasms in Cucumber.
Genes,
Vol. 13,
Issue. 2,
p.
225.
Tian, Shouwei
Zhang, Zeliang
Qin, Genji
and
Xu, Yong
2023.
Parthenocarpy in Cucurbitaceae: Advances for Economic and Environmental Sustainability.
Plants,
Vol. 12,
Issue. 19,
p.
3462.
Meng, Yongjiao
Li, Ji
Zhu, Pinyu
Wang, Yuhui
Cheng, Chunyan
Zhao, Qinzheng
and
Chen, Jinfeng
2024.
Characterization and fine mapping of cold-inducible parthenocarpy in cucumber (Cucumis sativus L.).
Plant Science,
Vol. 348,
Issue. ,
p.
112237.
Meng, Yongjiao
Zhu, Pinyu
Gou, Chenxing
Cheng, Chunyan
Li, Ji
and
Chen, Jinfeng
2024.
Auxin and Ethylene Play Important Roles in Parthenocarpy Under Low-Temperature Stress Revealed by Transcriptome Analysis in Cucumber (Cucumis sativus L.).
Journal of Plant Growth Regulation,
Vol. 43,
Issue. 4,
p.
1137.
Dhall, Rajinder Kumar
Kaur, Harleen
Manchanda, Pooja
and
Sharma, Eshanee
2024.
Recent advances in genetics and molecular breeding of parthenocarpic cucumber (Cucumis sativus L.) under protected conditions.
Euphytica,
Vol. 220,
Issue. 7,