Elisa Brewster‐Salmones, Juan Manuel Díaz‐García, Fabiola López‐Barrera
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In the greenhouse trial, more seedlings emerged from acorns covered by fruits of <jats:italic>C. pubescens</jats:italic> (65.71 ± 8.14) and <jats:italic>C. annuum</jats:italic> (57.14 ± 8.49%) compared to unprotected acorns (31.43 ± 7.96%). Contrary to expectation, acorn removal in the field was greater using <jats:italic>C. pubescens</jats:italic> than the unprotected acorns, particularly in microsites with lower tree cover and higher grass dominance. Acorn removal was similar to chili pepper treatments. These results are explained by the camera trap records, which showed bird species consuming <jats:italic>Capsicum</jats:italic> fruits, thus exposing the acorns to subsequent removal and/or consumption by rodents. 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引用次数: 0
摘要
直接播种橡子是恢复橡树林的一项技术,但哺乳动物会大量捕食种子,因此需要成本效益高的替代品来保护橡子。本研究评估了辣椒(Capsicum annuum 和 Capsicum pubescens)对云雾林中濒危特有橡树 Quercus germana 橡子的保护作用。通过温室和田间试验,评估了辣椒对橡子脱落、发芽和出苗的影响。这些过程与引入橡子的地方普遍存在的微生境特征有关,并使用相机陷阱识别了食用辣椒和橡子的动物。在温室试验中,与未受保护的橡子(31.43 ± 7.96%)相比,被 C. pubescens(65.71 ± 8.14)和 C. annuum(57.14 ± 8.49%)果实覆盖的橡子出苗更多。与预期相反,在田间使用 C. pubescens 的橡子去除率高于未受保护的橡子,特别是在树木覆盖率较低和草地较多的微地。橡子清除率与辣椒处理相似。这些结果可以用相机陷阱记录来解释,相机陷阱记录显示鸟类消耗辣椒果实,从而使橡子随后被啮齿动物清除和/或消耗。在温室条件下,所研究的辣椒果实对橡子的发芽和幼苗的萌发没有负面影响,因此,未来的做法可能包括使用不同的技术来防止辣椒被鸟类发现;例如,使用绿色辣椒进行伪装,或将辣椒藏在乱石堆或草本植物下。
Spicing up oak forest restoration: a preliminary report of the protective use of chili peppers in direct seeding of acorns
Direct sowing of acorns is a technique for oak forest restoration, however, high seed predation by mammals can occur and cost‐effective alternatives to protect acorns are therefore required. The present study evaluated the protection provided by chili peppers (Capsicum annuum and Capsicum pubescens) to acorns of Quercus germana, an endangered endemic oak tree of the cloud forests. Greenhouse and field experiments were established to evaluate the effect of chili peppers on acorn removal, germination, and seedling emergence. These processes were related to the prevalent microhabitat characteristics where the acorns were introduced, and the fauna that consumed chili peppers and acorns was identified using camera traps. In the greenhouse trial, more seedlings emerged from acorns covered by fruits of C. pubescens (65.71 ± 8.14) and C. annuum (57.14 ± 8.49%) compared to unprotected acorns (31.43 ± 7.96%). Contrary to expectation, acorn removal in the field was greater using C. pubescens than the unprotected acorns, particularly in microsites with lower tree cover and higher grass dominance. Acorn removal was similar to chili pepper treatments. These results are explained by the camera trap records, which showed bird species consuming Capsicum fruits, thus exposing the acorns to subsequent removal and/or consumption by rodents. The studied Capsicum fruits had no negative effect on acorn germination and seedling emergence under greenhouse conditions, and future practices could, therefore, involve the use of different techniques to prevent the discovery of chili peppers by birds; for example, using green chili peppers for camouflage, or hiding them under litter or herbaceous vegetation.
期刊介绍:
Restoration Ecology fosters the exchange of ideas among the many disciplines involved with ecological restoration. Addressing global concerns and communicating them to the international research community and restoration practitioners, the journal is at the forefront of a vital new direction in science, ecology, and policy. Original papers describe experimental, observational, and theoretical studies on terrestrial, marine, and freshwater systems, and are considered without taxonomic bias. Contributions span the natural sciences, including ecological and biological aspects, as well as the restoration of soil, air and water when set in an ecological context; and the social sciences, including cultural, philosophical, political, educational, economic and historical aspects. Edited by a distinguished panel, the journal continues to be a major conduit for researchers to publish their findings in the fight to not only halt ecological damage, but also to ultimately reverse it.