The Kastle-Meyer test is a presumptive test used in forensic science to detect the presence of blood. It is a simple and inexpensive test that can be performed on-site to quickly determine if a stain is likely to be blood. The test involves applying a reagent, typically phenolphthalein, to the suspected stain. If the stain turns pink or red, it indicates the presence of blood. While the Kastle-Meyer test is a useful screening tool, it is not definitive and cannot distinguish between human and animal blood. Additional confirmatory tests, such as the Takayama test or DNA analysis, are often necessary to conclusively identify the source of the blood. The Kastle-Meyer test is an important tool in the field of forensic science, as it can help investigators narrow down the evidence and focus their investigation on the most promising leads.

혈흔 감식은 범죄 현장에서 발견된 혈흔을 분석하여 사건의 재구성과 용의자 식별에 활용되는 중요한 기법입니다. 혈흔 감식을 통해 혈흔의 형태, 크기, 분포 등을 분석하여 사건의 발생 과정과 용의자의 행동을 추정할 수 있습니다. 또한 DNA 분석을 통해 혈흔의 출처를 확인할 수 있어 용의자 식별에 도움이 됩니다. 혈흔 감식은 과학적이고 객관적인 증거를 제공하므로 법정에서 중요한 증거로 활용될 수 있습니다. 그러나 혈흔 감식은 전문적인 지식과 기술이 요구되며, 현장에서의 오염이나 훼손 등으로 인해 정확성이 떨어질 수 있다는 한계가 있습니다. 따라서 혈흔 감식 기법의 지속적인 발전과 함께 현장 관리 및 증거 보존 절차의 개선이 필요할 것으로 보입니다.

Zinc powder is a commonly used technique in forensic science for the development of latent fingerprints. When applied to a surface, the zinc powder adheres to the residues left behind by the friction ridges of the fingers, making the fingerprint visible. This technique is particularly useful on non-porous surfaces such as metal, glass, and plastic, where traditional powder dusting methods may not be effective. The use of zinc powder has several advantages. It is relatively inexpensive, easy to apply, and can be used on a wide range of surfaces. Additionally, the developed fingerprints are often of high quality and can be easily photographed for further analysis. However, there are also some limitations to the use of zinc powder. It can be messy and difficult to control, and it may not be effective on surfaces that are heavily contaminated or have a rough texture. Additionally, the developed fingerprints can be fragile and may be easily smudged or destroyed if not handled carefully. Overall, the use of zinc powder is an important tool in the forensic scientist's toolkit, and its continued development and refinement will likely play a key role in the ongoing efforts to improve the identification and analysis of latent fingerprints. As with any forensic technique, it is important to use zinc powder in conjunction with other investigative methods and to carefully consider the limitations and potential pitfalls of the technique.