Tool use-once considered rare in insects-has been documented in a crafty predator.Researchers from China Agricultural University,and two institutions under the Chinese Academy of Sciences-the Xishuangbanna Tropical Bo...Tool use-once considered rare in insects-has been documented in a crafty predator.Researchers from China Agricultural University,and two institutions under the Chinese Academy of Sciences-the Xishuangbanna Tropical Botanical Garden(XTBG)and the Institute of Zoology-revealed that the assassin bug Pahabengkakia piliceps weaponizes resin from stingless bee nests to trick its prey.展开更多
As an essential component of the architecture of a plant,leaves are crucial to sustaining decision-making in cultivars and effectively support agricultural processes.When the leaf area is constantly monitored,a plant...As an essential component of the architecture of a plant,leaves are crucial to sustaining decision-making in cultivars and effectively support agricultural processes.When the leaf area is constantly monitored,a plant’s health and productive capacity can be assessed to foment proactive and reactive strategies.Because of that,one of the most critical tasks in agricultural processes is estimating foliar damage.In this sense,we present an automatic method to estimate leaf stress caused by insect herbivory,including damage in border regions.As a novelty,we present a method with well-defined processing steps suitable for numerical analysis and visual inspection of defoliation severity.We describe the proposed method and evaluate its performance concerning 12 different plant species.Experimental results show high assertiveness in estimating leaf area loss with a concordance correlation coefficient of 0.98 for grape,soybean,potato,and strawberry leaves.A classic pattern recognition approach,named template matching,is at the core of the method whose performance is compared to cutting-edge techniques.Results demonstrated that the method achieves foliar damage quantification with precision comparable to deep learning models.The code prepared by the authors is publicly available.展开更多
文摘Tool use-once considered rare in insects-has been documented in a crafty predator.Researchers from China Agricultural University,and two institutions under the Chinese Academy of Sciences-the Xishuangbanna Tropical Botanical Garden(XTBG)and the Institute of Zoology-revealed that the assassin bug Pahabengkakia piliceps weaponizes resin from stingless bee nests to trick its prey.
基金the Universidade Federal de Goiás(Brazil),Instituto Federal Goiano(Brazil),and CAPES(Coordenação de Aperfeiçoamento de Pessoal de Nível Superior–Brazil)[66666622+CAPES Finance Code#001]for partially supporting this research work.
文摘As an essential component of the architecture of a plant,leaves are crucial to sustaining decision-making in cultivars and effectively support agricultural processes.When the leaf area is constantly monitored,a plant’s health and productive capacity can be assessed to foment proactive and reactive strategies.Because of that,one of the most critical tasks in agricultural processes is estimating foliar damage.In this sense,we present an automatic method to estimate leaf stress caused by insect herbivory,including damage in border regions.As a novelty,we present a method with well-defined processing steps suitable for numerical analysis and visual inspection of defoliation severity.We describe the proposed method and evaluate its performance concerning 12 different plant species.Experimental results show high assertiveness in estimating leaf area loss with a concordance correlation coefficient of 0.98 for grape,soybean,potato,and strawberry leaves.A classic pattern recognition approach,named template matching,is at the core of the method whose performance is compared to cutting-edge techniques.Results demonstrated that the method achieves foliar damage quantification with precision comparable to deep learning models.The code prepared by the authors is publicly available.
