Defense against Feeding by Spring Aphid Parasitism in the Upper Leaf Parts of Host Plants

IF 1.6 Q2 ENTOMOLOGY Psyche: A Journal of Entomology Pub Date : 2022-05-31 DOI:10.1155/2022/1087823
Yuuka Murakami, Hisashi Kawai, Akane Shindo, E. Hasegawa
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Abstract

In a symbiosis, each participant gains more fitness benefits than is paid in maintenance costs for the symbiosis. The mugwort aphid, Macrosiphoniella yomogicola, is ant-associated, and the host mugwort Artemisia montana is a genet-producing plant that has clonal aboveground shoots. M. yomogicola infests most A. montana shoots from spring to midsummer, and attending ants also repel leaf-eaters of the host plant. However, most aphid colonies become extinct after budding of A. montana inflorescence after early August. A few surviving aphid colonies (1∼3 per genet) produce sexuparae in mid-October. The shoots on which the sexuparae emerged lost most of their fitness because the aphids strongly suppress budding and growth of inflorescence. However, as the shoots are genetic clones of each other, the appearance of stem mothers in the next spring may result in early spreading of the aphids and attending ants to clonal shoots, which would protect the host from leaf-eaters. Here, we show that all shoots on a genet with stem mothers are occupied by aphids and ants much faster than those on a genet without stem mothers. The attending ants repel leaf-eaters to unimportant leaves for the host. Our results suggest that, as the shoots of a genet are all clones, sustaining the aphids on a few shoots may be beneficial to a genet as a whole through kin selection.
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春蚜寄生在寄主植物上部叶部的摄食防御
在共生关系中,每个参与者获得的健身收益都超过了共生关系的维护成本。艾蚜Macrosephoniella yomogicola与蚂蚁有关,寄主艾是一种产基因的植物,具有克隆的地上芽。从春天到仲夏,M.yomogicola寄生在A.montana的大部分枝条上,而寄生的蚂蚁也会击退寄主植物的食叶蚁。然而,大多数蚜虫群落在8月初A.montana花序出芽后灭绝。一些幸存的蚜虫群落(每个基因1~3个)在10月中旬产生六倍体。由于蚜虫强烈抑制花序的出芽和生长,出现六胞菌的枝条失去了大部分健康状态。然而,由于芽是彼此的遗传克隆,第二年春天茎母的出现可能会导致蚜虫提前传播,并使蚂蚁进入克隆芽,这将保护宿主免受食叶者的伤害。在这里,我们展示了有茎母的基因上的所有芽被蚜虫和蚂蚁占据的速度比没有茎母的遗传上的要快得多。寄主蚂蚁会将食叶蚁排斥到对寄主来说不重要的叶子上。我们的研究结果表明,由于一个基因的芽都是无性系,通过亲属选择,在几个芽上维持蚜虫可能对整个基因有益。
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来源期刊
CiteScore
1.80
自引率
0.00%
发文量
8
审稿时长
15 weeks
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