Combined serial ultrasonography and fecal progestin analysis for reproductive evaluation of the female white rhinoceros (Ceratotherium simum simum): Preliminary results

Radcliffe, Robin W.; Czekala, Nancy M.; Osofsky, Steven A.

doi:10.1002/(sici)1098-2361(1997)16:5<445::aid-zoo7>3.0.co;2-a

Cited by 72 publications

(105 citation statements)

References 14 publications

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“…As soon as P m reached baseline (follicular phase) values, follicles started developing. This is in contrast to other megavertebrae species such as giraffe (Lueders et al 2009) or rhinoceros (Radcliffe et al 1997) where follicles are constantly forming in all reproductive stages, even under the influence of a functional CL. In elephants, high P m levels appear to completely inhibit antral follicle formation.…”

Section: Luteogenesis In Elephantsmentioning

confidence: 58%

“…The luteal cells of the acCLs may require the second LH peak to mature and become fully steroidogenically active. In Baringo giraffes (Giraffa camelopardalis rothschildi) and white rhinoceros (Ceratotherium simum simum) a time span of 5-6 and 7-9 days respectively has been reported from ovulation to first rise in progesterone levels (Radcliffe et al 1997, Lueders et al 2009). The short period from ovulation to increased P m concentrations in the Asian elephant supports the hypothesis that the acCL may initially be responsible for secreting this hormone while the ovCL contributes and maintains P m during the remainder of the luteal phase.…”

Section: Luteogenesis In Elephantsmentioning

confidence: 99%

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Luteogenesis during the estrous cycle in Asian elephants (Elephas maximus)

Niemuller¹,

Gray²,

Rich³

et al. 2010

Reproduction

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The occurrence of multiple corpora lutea (CLs) in the ovaries of the cycling and pregnant elephant, a monovulatory mammal, has driven scientific discussions during the past five decades. However, fundamental knowledge on luteogenesis is lacking. In this long-term study, CL formation and regression throughout the estrous cycle were monitored using transrectal 2D-and 3D ultrasonography in 33 captive Asian elephants. Serum or urinary progestagens (P m ) were measured to determine the reproductive cycle stage. In seven females, serum P m and LH concentrations were directly related to ovarian events. We have found two different modalities of luteal development: one for the accessory CL (acCL) and one for the ovulatory CL (ovCL). acCLs were derived from luteinization of larger, subordinate follicles after the first anovulatory LH peak. The dominant follicle produced the largest CL after the second (ovulatory) LH peak. The first luteal tissue formation became visible w10 days after the respective LH peak. After ovulation, it took 29.8G5.0 days for the acCLs to reach their maximum diameter, whereas the ovCL reached a significantly larger size (33.2G2.3 mm, P!0.0001) about 10-15 days later. All CLs were visible throughout the new follicular phase, with some of the larger ones still present in the subsequent luteal period. In this study, we have demonstrated that Asian elephants have evolved a novel method for luteal development and function, and by repeatedly forming two types of distinctly different CLs for every reproductive cycle, they have ensured that there will be sufficient luteal capacity for maintaining a 22-month pregnancy should conception occur.

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Section: Luteogenesis In Elephantsmentioning

confidence: 58%

Section: Luteogenesis In Elephantsmentioning

confidence: 99%

Luteogenesis during the estrous cycle in Asian elephants (Elephas maximus)

Niemuller¹,

Gray²,

Rich³

et al. 2010

Reproduction

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“…Part of this lag may be attributable to the delay coinciding with the entero-hepatic circulation and faecal excretion of steroids, estimated to be 2-3 days in rhinocerotids (Hindle and Hodges, 1990;Heistermann et al, 1998), as well as to the delay of 2-3 days observed between onset of oestrus and ovulation in black rhinoceroses (Radcliffe et al, 2001). In addition, another interval probably occurs between ovulation and the subsequent increase in faecal progestagens, as has been described in white rhinoceroses (Radcliffe et al, 1997;Schwarzenberger et al, 1999).…”

Section: Discussionmentioning

confidence: 71%

“…This pathology has been identified in three captive white rhinoceros females, and the corresponding luteal phases, identified by faecal pregnane analysis, lasted about twice the average cycle duration (Radcliffe et al, 1997;Patton et al, 1999). These reports, combined with the fact that a history of mating followed by anoestrus without pregnancy in mares is indicative of early embryo loss (Youngquist, 1997), indicate that such pathology may be associated with type IIa cycles.…”

Section: Discussionmentioning

confidence: 96%

“…In rhinoceros species, faecal progestagen analysis has permitted the monitoring of gestation and diagnosis of pregnancy in both wild and captive black and white rhinoceroses (Schwarzenberger et al, 1993, in press;Berkeley et al, 1997;Radcliffe et al, 1997;Garnier et al, 1998a;Patton et al, 1999), and in captive Indian rhinoceroses (Schwarzenberger et al, 2000). The analysis of faecal progestagen has also allowed the assessment of luteal activity in captivity in white (Patton et al, 1999), Indian (Schwarzenberger et al, 2000) and Sumatran rhinoceroses (Heistermann et al, 1998).…”

Section: Introductionmentioning

confidence: 99%

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Non-invasive assessment of oestrous cycles and evaluation of reproductive seasonality in the female wild black rhinoceros (Diceros bicornis minor)

Garnier¹

2002

Reproduction

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Recent advances in noninvasive techniques to monitor hormone-behavior interactions

Whitten

Brockman

Stavisky

1998

Am. J. Phys. Anthropol.

251

185

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This paper reviews recent advances in field endocrinology, a focus as well as a method in primatology and behavioral ecology that permits the examination of social behavior and life history through hormonal investigations in natural settings. Endocrine data complements the traditional behavioral data collected by field scientists by providing quantitative measures for the examination of adaptive tradeoffs, costs of social strategies, and reproductive and social significance of mating events. Further, investigations of the physiological mechanisms of reproductive constraint provide tests of the adaptive significance of reproductive skew in cooperative and competitive breeders. Hormone data also can provide insights into the costs of competition and aggression and the role of temperament in individual reproductive success and the evolution of social systems. New, noninvasive methods for the collection of this information have augmented and expanded field endocrinology through the use of techniques that do not require potentially confounding physical or physiological manipulations. Specifically, urine and fecal samples can be collected from free-ranging animals and contain gonadal and adrenal hormones that parallel profiles of serum hormones. Sampling, preservation, extraction, and assay methods for the analysis of excreted steroids are reviewed along with the species and questions to which these methods have been applied.

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Combined serial ultrasonography and fecal progestin analysis for reproductive evaluation of the female white rhinoceros (Ceratotherium simum simum): Preliminary results

Cited by 72 publications

References 14 publications

Luteogenesis during the estrous cycle in Asian elephants (Elephas maximus)

Luteogenesis during the estrous cycle in Asian elephants (Elephas maximus)

Non-invasive assessment of oestrous cycles and evaluation of reproductive seasonality in the female wild black rhinoceros (Diceros bicornis minor)

Recent advances in noninvasive techniques to monitor hormone-behavior interactions

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