Experimental Biology in Conflict Resolutions: The Case of Pelicans and Cormorants in Israel

Pub Date : 2022-07-01 DOI:10.5253/arde.v109i2.a30
Z. Arad
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引用次数: 1

Abstract

In Israel, which is a bottleneck for some six hundred million migrating birds, the drainage of the Hula Lake in the north resulted in serious conflicts between fish-eating birds and the intensive fish farming and agriculture that became established on the reclaimed land. Implementation of various deterrence methods, including lethal control, failed to solve these conflicts. We followed the concept that only by understanding the biology of the organism in question could the tools (indications) for effective and sustainable management be devised that would solve such conflicts while helping the preservation of natural assets such as wetlands and their inhabitants. We demonstrated this concept in the solutions reached in the case studies of pelicans and cormorants and their interactions with intensive commercial fish ponds. We studied the physiological condition, food preference and energy demands, and ecological constraints of Great White Pelican Pelecanus onocrotalus, Great Cormorant Phalacrocorax carbo and Pygmy Cormorant Microcarbo pygmeus. As a result, we suggested different management solutions that are currently implemented with the full cooperation of the fishermen and the nature preservation authorities. Based on assessment of visual acuity to detect and catch fish under water Great Cormorants were effectively pushed towards Lake Kinneret where they could hunt more profitable fish than in the turbid fish ponds. The established roosts there were not controlled such as to lead the birds away from the fishponds. In case of the pelicans, part of the drained Hula valley was reflooded and extra fish was provided. Both measures effectively reduced the damage at the fish farms. We have shown that such solutions are economically helpful for fishermen and enable the preservation of the wetland habitat.
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冲突解决中的实验生物学:以色列鹈鹕和鸬鹚的案例
在以色列,这是大约6亿候鸟的瓶颈,北部胡拉湖的排水导致了以鱼为食的鸟类与在开垦的土地上建立的集约型养鱼和农业之间的严重冲突。包括致命控制在内的各种威慑方法的实施未能解决这些冲突。我们遵循的概念是,只有了解有关生物体的生物学,才能设计出有效和可持续管理的工具(指标),解决这些冲突,同时帮助保护湿地及其居民等自然资产。我们在对鹈鹕和cormorants及其与密集商业鱼塘的相互作用的案例研究中得出的解决方案中证明了这一概念。我们研究了大白鹈鹕、大斑Cormorant Phalacrocorax carbo和侏儒Cormorant Microcarbo pygmeus的生理条件、食物偏好和能量需求,以及生态约束。因此,我们提出了不同的管理解决方案,目前正在渔民和自然保护当局的充分合作下实施。根据对检测和捕捉水下鱼类的视力评估,大珊瑚虫被有效地推向了Kinneret湖,在那里它们可以比在浑浊的鱼塘中捕捞更有利可图的鱼类。那里已建立的栖息地没有受到控制,无法将鸟类带离鱼塘。在鹈鹕的案例中,部分排水的胡拉山谷被重新淹没,并提供了额外的鱼类。这两项措施都有效地减少了对养鱼场的破坏。我们已经证明,这些解决方案在经济上有助于渔民,并有助于保护湿地栖息地。
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