Antlers are unique among animal bon

Antlers are unique among animal bones in that they grow and are cast every year. This allows for basic research in bone biology without the interference of surgical procedures and their adverse effects in animals where samples are obtained. In addition, antlers also allow for the gathering of a large amount of samples from different populations to assess nutritional and ecological effects on bone composition and structure.

According to prevailing theories on costly secondary sexual characters such as antlers, these indicate the quality of the male, and thus they are likely to reflect body condition and food intake (1; in deer antlers: [2] and [3]). Thus, it is long known that antlers constitute 1 to 5% of body weight [4]. Another fact suggesting that body condition influences antler size is that food processing cannot supply the mineral needs required for antler growth and thus, males must resorb minerals from their own skeleton for antler growth [5] and [6]. Detailed studies have shown that daily food intake provides between 25 and 40% of calcium needed for antler mineralization, which results in temporary skeleton demineralization [6]. Conversely, nutrition affects also antler development and thus, food availability influences antler length in spikes [7], or volume, diameter of the beam, length and number of tines [8].

A corollary of the former theory should be that antlers, and possibly other bones, might reflect in their chemical composition the quality that is conveyed by their weight and shape. Very few studies have considered that bone chemical composition might be variable. Early studies showed that bone chemical composition varied between domestic species of poultry and cattle [9] and [10], and thus considered such composition as constant and particular of each species. This research has been recently extended to species-specific chemical composition of antlers [11]. Some authors considered normal composition as constant but postulated that contaminant trace elements (such as lead or mercury) would be incorporated into the bone and they would serve as indices of contamination [9; in antlers: 12]. Other authors have suggested the use of the levels of microminerals in bones as an index of assimilation in nutrition studies [11], [13] and [14]. To our knowledge, no study has considered the hypothesis that antler bone composition in elements other than Ca and P might be variable within standard conditions and that such composition might indicate the size, weight and structural characteristics of the antler, or that bone composition might be influenced by body condition, weight or size of the bearer.

This study aimed at assessing whether composition of antler bone varies in standard conditions and whether such variation is influenced by antler region, whether it is associated to bone external characteristics and influenced by body size and growth. For this, antler bone chemical composition was examined in content of macrominerals calcium (Ca), phosphorus (P), magnesium (Mg), sodium (Na), potassium (K), and the two most essential microminerals, iron (Fe) and zinc (Zn) in two parts of the spike antlers differing in their mechanical function: base and tine. We examined whether antlers differing in structural development (i.e., size, weight, base or mid beam perimeter) differed in chemical composition. Finally, we tested whether the deer body weight at birth, weight gained during lactation, or weight and height at the end of the first year of life affected the mean concentration of each mineral or the difference between concentration at the base, and that at the tine.