Sex ratio theory allows unparalleled opportunities for testing how well animal behavior can be predicted by evolutionary theory. For example, Hamilton's theory of local mate competition (LMC) is well understood and can explain variation in sex allocation across numerous species. This allows more specific predictions to be developed and tested. Here we extend LMC theory to a situation that will be common in a range of species: asymmetrical LMC. Asymmetrical LMC occurs when females lay eggs on a patch asynchronously and male offspring do not disperse, leading to relatively weaker LMC for males emerging from later broods. Varying levels of LMC then lead to varying optimal sex ratios for females, depending on when and where they oviposit. We confirm the assumptions of our theory using the wasp Nasonia vitripennis and then test our predictions. We show that females adjust their offspring sex ratios in the directions predicted, laying different sex ratios on different hosts within a patch. Specifically, there was a less female-biased sex ratio when ovipositing on an unparasitized host if another host on the patch had previously been parasitized and a less female-biased sex ratio on parasitized hosts if females also oviposited on an unparasitized host.
Lung transplantation is a potentially curative therapy for the end-stage pulmonary sequelae of sarcoidosis. We reviewed the course of five lung allograft recipients with underlying sarcoidosis (S) at the University of Pittsburgh Medical Center and compared them with a control group (C) of 44 contemporaneous transplant recipients with other respiratory diseases. Sarcoid granulomata have developed in the allografts of 4 S, although these lesions have not yet been demonstrated to result in clinically significant abnormalities. In comparison with C, sarcoidosis patients had significantly greater mean grades of acute rejection during the first 3 months after transplantation (2.1 +/- 0.3 versus 1.6 +/- 0.1, S and C, respectively, p < 0.042) and larger proportions of lung biopsies showing more than mild acute rejection (40 versus 18%, p < 0.012) and lymphocytic bronchitis (30 versus 13%, p = 0.02), as well as a greater percentage of polymorphonuclear leukocytes in BAL returns (34.9 +/- 5.4 versus 19.0 +/- 1.6, p < 0.01). The two groups did not differ, however, in frequency of obliterative bronchiolitis, survival, or pulmonary function. We conclude that lung transplant recipients with underlying sarcoidosis are very likely to develop recurrent disease in the allograft and have more severe acute rejection responses, especially in the first weeks after transplantation. Pulmonary transplantation appears to be an efficacious therapy for end-stage sarcoidosis, but the long-term sequelae of the increased acute rejection and recurrent sarcoidosis in the allograft remain to be determined.
We investigated factors affecting the success of 14 species of ungulates introduced to New Zealand around 1851-1926. The 11 successful species had a shorter maximum life span and were introduced in greater numbers than the three unsuccessful species. Because introduction effort was confounded with other life-history traits, we examined whether independent introductions of the same species were more likely to succeed when a greater number of individuals were introduced. For the six species with introductions that both succeeded and failed, successful introductions always involved an equal or greater number of individuals than unsuccessful introductions of the same species. For all independent introductions, there was a highly significant relationship between the number of individuals introduced and introduction success. When data for ungulate and bird introductions to New Zealand were combined, a variable categorizing species as ungulate or bird was a highly significant predictor of introduction success, after variation in introduction effort was controlled. For a given number of individuals introduced, ungulates were much more likely to succeed than birds. size," has a strong theoretical basis for determining introduction success. Demographic stochasticity, the result of random and independent births and deaths, can lead to population extinction, the probability of which is inversely proportional to population size ( In this article, we compare the factors affecting the introduction success of ungulate and bird species introduced to New Zealand. The objectives of our study were twofold: first, to identify which life-history and/or ecological variables predict the success of 14 ungulate species introduced to New Zealand and to determine whether introduction effort was a factor influencing introduction success and, second, to determine whether species of ungulates and birds differed in their probability of success when introduced to New Zealand. Keywords Methods Data SourcesWe searched the literature for information on the introduction of ungulates into North, South, and Stewart Islands ("New Zealand"). Our primary sources were Thomson ( Introductions were defined as "successful" if the species had wild populations in New Zealand in 1996 or previously had a self-sustaining wild population that was eradicated by hunting. Only one species, Axis axis, met the latter criterion. Introductions not meeting these criteria were termed "unsuccessful." There is uncertainty as to whether moose (Alces alces) were extant in New Zealand in 1996 (Davidson and Tustin 1990), but based on the evidence in Tustin (1998), we concluded that a population was present.To determine whether introductions failed because species were introduced into areas that lacked suitable habitat, we quantified the propensity of each species to utilize 10 major habitat types in New Zealand (table 1). Each habitat was scored as 1 for "suitable" and 0 for "unsuitable" based on descriptions of each species' habitat use outside New Zealand (see table...
Gel chromatography indicated that most of the zinc in cow's milk was associated with high-molecular-weight fractions, whereas zinc in human milk was associated with low-molecular-weight fractions. A species difference in zinc-binding ligands may explain why symptoms of the genetic disorder of zinc metabolism, acrodermatitis enteropathica, can be alleviated by feeding human but not cow's milk.
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