Scanning electron microscope-based evaluation of eggshell quality.

ABSTRACT

The eggshell is the outermost covering of an egg that provides physical and chemical protection. It is a major source of calcium and minerals for the growing embryo during incubation. The egg industry suffers from a considerable economic loss due to poor eggshell quality. Therefore, developing an accurate and precise method of determining eggshell quality is crucial in improving eggshells in subsequent generations of breeding stock. Hence, this study aimed to develop a method to accurately and precisely determine 1) eggshell thickness using a scanning electron microscope (SEM) and 2) eggshell mineral components using an SEM-Energy Dispersive Spectrometry (EDS) system. Four types of table eggs (N = 48; 12 eggs/group) Cage-Free Organic from the US Mainland (CFO-M) and Hawaii (CFO-H), Caged Non-Organic from the US Mainland (CNO-M), and Hawaii (CNO-H) were sourced from the grocery store. Approximately 0.5 mm2 pieces of eggshells from the equator region of the egg were taken and processed for visualization under the SEM. Three distinct layers of eggshell were identified under SEM the outermost cuticle, the middle palisade, and the innermost mammillary region. The results showed that CFO-H eggs have a greater eggshell thickness (380.43 ± 2.69 µm) and effective thickness (306.28 ± 4.15 µm). Similarly, the mammillary knob count was denser in CNO-H eggs (186 ± 23.02 knobs/0.5 mm2). Calcium (97.36 ± 0.17%) was the highest among minerals in lower palisades (LP). The magnesium concentration was lowest in the LP region, whereas the phosphorus concentration was highest in the upper palisades. Our study established a scientific method to assess the eggshell quality and biochemical characteristics of eggs through SEM and EDS. This method can be used as a marker for selecting superior parent stock to improve eggshell quality in subsequent generations of breeding stock.