Why hot water baths effects only male's fertility why not females's?

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Here is the link where urologist warning men not to take hot water baths.

Why does it effects only males's fertility? Why not females also?

human-biology sex health

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asked 6 hours ago

K Sai Harsha

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up vote
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down vote

favorite

Here is the link where urologist warning men not to take hot water baths.

Why does it effects only males's fertility? Why not females also?

human-biology sex health

share|improve this question

asked 6 hours ago

K Sai Harsha

183

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K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

add a comment | 

up vote
3
down vote

favorite

up vote
3
down vote

favorite

Here is the link where urologist warning men not to take hot water baths.

Why does it effects only males's fertility? Why not females also?

human-biology sex health

share|improve this question

asked 6 hours ago

K Sai Harsha

183

New contributor

K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

Here is the link where urologist warning men not to take hot water baths.

Why does it effects only males's fertility? Why not females also?

human-biology sex health

human-biology sex health

share|improve this question

asked 6 hours ago

K Sai Harsha

183

New contributor

K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

share|improve this question

asked 6 hours ago

K Sai Harsha

183

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K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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share|improve this question

asked 6 hours ago

K Sai Harsha

183

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K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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asked 6 hours ago

K Sai Harsha

183

asked 6 hours ago

K Sai Harsha

183

183

New contributor

K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

New contributor

K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

K Sai Harsha is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

add a comment | 

add a comment | 

3 Answers
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accepted

Well the previous answer by @Anand Jadhav has already explained the prima facie of your question which is: sperms need lower temperature for development.But I will be explaining in my answer : why the sperms actually need a lower temperature for its development

This is a debatable subject but there have been several models or hypothesis about this. I found this literature on it and it summarises the thing excellently.Hope it helps:

Throughout the Cenozoic, the fitness benefits of the scrotum in placental mammals presumably outweighed the fitness costs through damage, yet a definitive hypothesis for its evolution remains elusive. Here, I present an hypothesis (Endothermic Pulses Hypothesis) which argues that the evolution of the scrotum was driven by Cenozoic pulses in endothermy, that is, increases in normothermic body temperature.... The model argues that stabilizing selection maintained an optimum temperature for spermatogenesis and sperm storage throughout the Cenozoic at the lower plesiomorphic levels of body temperature that prevailed in ancestral mammals for at least 163 million years. Evolutionary stasis may have been driven by reduced rates of germ‐cell mutations at lower body temperatures... The fitness advantages of an optimum temperature of spermatogenesis outweighed the potential costs of testes externalization and paved the way for the evolution of the scrotum. The scrotum evolved within several hundred thousand years of the K‐Pg extinction, probably associated initially with the evolution of cursoriality, and arguably facilitated mid‐ and late Cenozoic metabolic adaptations to factors such as climate, flight in bats and sociality in primates.

About the function of the scrotum from the article

The scrotum is a sac‐like thermoregulatory structure that houses the testes at a temperature lower than the core body temperature (Tb; Moore, 1926; Wislocki, 1933; Ruibal, 1957; Setchell, 1998). The cremasteric muscles in the scrotum contract and relax to draw the testes closer to or allow them to dangle further away from the body in order to maintain the testes at an ‘optimal’ temperature for spermatogenesis (sensu Moore, 1926; Tsperm) and sperm storage of 34–35 °C (Setchell, 1998; Gallup et al., 2009; Mawyer et al., 2012). In humans, the scrotal temperature is maintained about 2.7 °C lower than the Tb (Momen et al., 2010).Notwithstanding the relative fitness benefits of a cooled epididymis vs. the cooled testis, four nonmutually exclusive hypotheses currently dominate explanations for the evolution of the scrotum: the Cool Spermatogenesis Hypothesis (Moore, 1926), the Galloping Hypothesis (Frey, 1991), the Mutation Hypothesis (Short, 1997) and the Activation Hypothesis (Gallup et al., 2009).

Cool Spermatogenesis Hypothesis

...argued that Tsperm and the maintenance of sperm viability during storage in the epididymis is about 34–35 °C (Moore, 1926; Appell et al., 1977). Scrotal temperatures that approach those of the core Tbcompromise fertility (Moore, 1926; Bedford, 1978b, 2004; Setchell, 1998), particularly if evaporative cooling of the scrotum is impaired (Momen et al., 2010).

The Galloping Hypothesis

... (Frey, 1991)proposes a trade‐off between testes vulnerability (fitness cost) and the avoidance of strong intra‐abdominal pressure fluctuations during galloping which impair spermatogenesis in abdominal testes (fitness benefit).

The Mutation Hypothesis

... maintains that the testis is a ‘hot spot’ for germ‐cell mutations and that the lower temperatures of the scrotum reduce the rates of mutation on the Y chromosome through mutagenic metabolites (Short, 1997).

The Activation Hypothesis

... storage of sperm at a lowered temperature ensures that they undergo ‘thermal shock’ during ejaculation into the higher temperatures of the female, which increases their motility and hence the probability of a successful insemination (Gallup et al., 2009).

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answered 16 mins ago

user 33690

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A mature human sperm has some mitochondria, a nucleus, an acrosome and a flagellar apparatus. That's it. Because of the lack of other organelles in the sperm, they have to be kept in a kind of 'cold storage' so that they are viable for at least some time (usually a couple of days). The ideal temperature would be 1.8°C to 2.5°C below normal body temperature, i.e. 37.6 °C or 98 F. If a man takes frequent hot water baths, his sperm count becomes low as the mature sperms get dessicated quickly.

The reason that women don't require this strict temperature regulation is that the mature ovum has the complete cellular machinery at it's disposal- mitochondria, nucleus, golgi bodies, ER, the works. So it can remain viable for a much longer time (about 7 days after ovulation) and has higher temperature tolerance than sperms.

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answered 1 hour ago

user29774

384

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  can you add please some refferencis? Specially this "Because of the lack of other organelles in the sperm" made me quite suspicious.
  – L.Diago
  1 hour ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  @K Sai Harsha how do you know that this answer is scientifically correct let alone accept it?
  – user 33690
  10 mins ago
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  @user33690 I changed my answer.
  – K Sai Harsha
  9 mins ago
  

  
  
  
  

add a comment | 

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To keep sperm viable in natural body condition they are kept in relative lower temperature than the body temperature & this can achived by scrotum.As sperm produce in testis and testis situated in scrotum outside the main part of body a pouch like structure.this arrangement going to help to achive slight lesser temperature relative to body temperature.definatly frequent hot water bath will lower the sperm count by hampering spermatogenesis as it disturb the normal physiological conditions inside the testis by increasing temperature.

Other side in female, body temperature is not going to affect the oogenesis(ovum formation process).Instead of that you will see increase in basal body temperature(about 0.5 c) during ovulation(release of ovum) that means hot water bath no issue for female fertility.

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edited 48 mins ago

answered 53 mins ago

An J

11

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An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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  Hi, its good aswer, but can you add some refferences to your claims?
  – L.Diago
  29 mins ago
  

  
  
  
  

add a comment | 

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3 Answers
3

active

oldest

votes

3 Answers
3

active

oldest

votes

active

oldest

votes

active

oldest

votes

up vote
1
down vote



accepted

Well the previous answer by @Anand Jadhav has already explained the prima facie of your question which is: sperms need lower temperature for development.But I will be explaining in my answer : why the sperms actually need a lower temperature for its development

This is a debatable subject but there have been several models or hypothesis about this. I found this literature on it and it summarises the thing excellently.Hope it helps:

Throughout the Cenozoic, the fitness benefits of the scrotum in placental mammals presumably outweighed the fitness costs through damage, yet a definitive hypothesis for its evolution remains elusive. Here, I present an hypothesis (Endothermic Pulses Hypothesis) which argues that the evolution of the scrotum was driven by Cenozoic pulses in endothermy, that is, increases in normothermic body temperature.... The model argues that stabilizing selection maintained an optimum temperature for spermatogenesis and sperm storage throughout the Cenozoic at the lower plesiomorphic levels of body temperature that prevailed in ancestral mammals for at least 163 million years. Evolutionary stasis may have been driven by reduced rates of germ‐cell mutations at lower body temperatures... The fitness advantages of an optimum temperature of spermatogenesis outweighed the potential costs of testes externalization and paved the way for the evolution of the scrotum. The scrotum evolved within several hundred thousand years of the K‐Pg extinction, probably associated initially with the evolution of cursoriality, and arguably facilitated mid‐ and late Cenozoic metabolic adaptations to factors such as climate, flight in bats and sociality in primates.

About the function of the scrotum from the article

The scrotum is a sac‐like thermoregulatory structure that houses the testes at a temperature lower than the core body temperature (Tb; Moore, 1926; Wislocki, 1933; Ruibal, 1957; Setchell, 1998). The cremasteric muscles in the scrotum contract and relax to draw the testes closer to or allow them to dangle further away from the body in order to maintain the testes at an ‘optimal’ temperature for spermatogenesis (sensu Moore, 1926; Tsperm) and sperm storage of 34–35 °C (Setchell, 1998; Gallup et al., 2009; Mawyer et al., 2012). In humans, the scrotal temperature is maintained about 2.7 °C lower than the Tb (Momen et al., 2010).Notwithstanding the relative fitness benefits of a cooled epididymis vs. the cooled testis, four nonmutually exclusive hypotheses currently dominate explanations for the evolution of the scrotum: the Cool Spermatogenesis Hypothesis (Moore, 1926), the Galloping Hypothesis (Frey, 1991), the Mutation Hypothesis (Short, 1997) and the Activation Hypothesis (Gallup et al., 2009).

Cool Spermatogenesis Hypothesis

...argued that Tsperm and the maintenance of sperm viability during storage in the epididymis is about 34–35 °C (Moore, 1926; Appell et al., 1977). Scrotal temperatures that approach those of the core Tbcompromise fertility (Moore, 1926; Bedford, 1978b, 2004; Setchell, 1998), particularly if evaporative cooling of the scrotum is impaired (Momen et al., 2010).

The Galloping Hypothesis

... (Frey, 1991)proposes a trade‐off between testes vulnerability (fitness cost) and the avoidance of strong intra‐abdominal pressure fluctuations during galloping which impair spermatogenesis in abdominal testes (fitness benefit).

The Mutation Hypothesis

... maintains that the testis is a ‘hot spot’ for germ‐cell mutations and that the lower temperatures of the scrotum reduce the rates of mutation on the Y chromosome through mutagenic metabolites (Short, 1997).

The Activation Hypothesis

... storage of sperm at a lowered temperature ensures that they undergo ‘thermal shock’ during ejaculation into the higher temperatures of the female, which increases their motility and hence the probability of a successful insemination (Gallup et al., 2009).

share|improve this answer

answered 16 mins ago

user 33690

1,420417

add a comment | 

up vote
1
down vote



accepted

Well the previous answer by @Anand Jadhav has already explained the prima facie of your question which is: sperms need lower temperature for development.But I will be explaining in my answer : why the sperms actually need a lower temperature for its development

This is a debatable subject but there have been several models or hypothesis about this. I found this literature on it and it summarises the thing excellently.Hope it helps:

Throughout the Cenozoic, the fitness benefits of the scrotum in placental mammals presumably outweighed the fitness costs through damage, yet a definitive hypothesis for its evolution remains elusive. Here, I present an hypothesis (Endothermic Pulses Hypothesis) which argues that the evolution of the scrotum was driven by Cenozoic pulses in endothermy, that is, increases in normothermic body temperature.... The model argues that stabilizing selection maintained an optimum temperature for spermatogenesis and sperm storage throughout the Cenozoic at the lower plesiomorphic levels of body temperature that prevailed in ancestral mammals for at least 163 million years. Evolutionary stasis may have been driven by reduced rates of germ‐cell mutations at lower body temperatures... The fitness advantages of an optimum temperature of spermatogenesis outweighed the potential costs of testes externalization and paved the way for the evolution of the scrotum. The scrotum evolved within several hundred thousand years of the K‐Pg extinction, probably associated initially with the evolution of cursoriality, and arguably facilitated mid‐ and late Cenozoic metabolic adaptations to factors such as climate, flight in bats and sociality in primates.

About the function of the scrotum from the article

The scrotum is a sac‐like thermoregulatory structure that houses the testes at a temperature lower than the core body temperature (Tb; Moore, 1926; Wislocki, 1933; Ruibal, 1957; Setchell, 1998). The cremasteric muscles in the scrotum contract and relax to draw the testes closer to or allow them to dangle further away from the body in order to maintain the testes at an ‘optimal’ temperature for spermatogenesis (sensu Moore, 1926; Tsperm) and sperm storage of 34–35 °C (Setchell, 1998; Gallup et al., 2009; Mawyer et al., 2012). In humans, the scrotal temperature is maintained about 2.7 °C lower than the Tb (Momen et al., 2010).Notwithstanding the relative fitness benefits of a cooled epididymis vs. the cooled testis, four nonmutually exclusive hypotheses currently dominate explanations for the evolution of the scrotum: the Cool Spermatogenesis Hypothesis (Moore, 1926), the Galloping Hypothesis (Frey, 1991), the Mutation Hypothesis (Short, 1997) and the Activation Hypothesis (Gallup et al., 2009).

Cool Spermatogenesis Hypothesis

...argued that Tsperm and the maintenance of sperm viability during storage in the epididymis is about 34–35 °C (Moore, 1926; Appell et al., 1977). Scrotal temperatures that approach those of the core Tbcompromise fertility (Moore, 1926; Bedford, 1978b, 2004; Setchell, 1998), particularly if evaporative cooling of the scrotum is impaired (Momen et al., 2010).

The Galloping Hypothesis

... (Frey, 1991)proposes a trade‐off between testes vulnerability (fitness cost) and the avoidance of strong intra‐abdominal pressure fluctuations during galloping which impair spermatogenesis in abdominal testes (fitness benefit).

The Mutation Hypothesis

... maintains that the testis is a ‘hot spot’ for germ‐cell mutations and that the lower temperatures of the scrotum reduce the rates of mutation on the Y chromosome through mutagenic metabolites (Short, 1997).

The Activation Hypothesis

... storage of sperm at a lowered temperature ensures that they undergo ‘thermal shock’ during ejaculation into the higher temperatures of the female, which increases their motility and hence the probability of a successful insemination (Gallup et al., 2009).

share|improve this answer

answered 16 mins ago

user 33690

1,420417

add a comment | 

up vote
1
down vote



accepted

up vote
1
down vote



accepted

Well the previous answer by @Anand Jadhav has already explained the prima facie of your question which is: sperms need lower temperature for development.But I will be explaining in my answer : why the sperms actually need a lower temperature for its development

This is a debatable subject but there have been several models or hypothesis about this. I found this literature on it and it summarises the thing excellently.Hope it helps:

Throughout the Cenozoic, the fitness benefits of the scrotum in placental mammals presumably outweighed the fitness costs through damage, yet a definitive hypothesis for its evolution remains elusive. Here, I present an hypothesis (Endothermic Pulses Hypothesis) which argues that the evolution of the scrotum was driven by Cenozoic pulses in endothermy, that is, increases in normothermic body temperature.... The model argues that stabilizing selection maintained an optimum temperature for spermatogenesis and sperm storage throughout the Cenozoic at the lower plesiomorphic levels of body temperature that prevailed in ancestral mammals for at least 163 million years. Evolutionary stasis may have been driven by reduced rates of germ‐cell mutations at lower body temperatures... The fitness advantages of an optimum temperature of spermatogenesis outweighed the potential costs of testes externalization and paved the way for the evolution of the scrotum. The scrotum evolved within several hundred thousand years of the K‐Pg extinction, probably associated initially with the evolution of cursoriality, and arguably facilitated mid‐ and late Cenozoic metabolic adaptations to factors such as climate, flight in bats and sociality in primates.

About the function of the scrotum from the article

The scrotum is a sac‐like thermoregulatory structure that houses the testes at a temperature lower than the core body temperature (Tb; Moore, 1926; Wislocki, 1933; Ruibal, 1957; Setchell, 1998). The cremasteric muscles in the scrotum contract and relax to draw the testes closer to or allow them to dangle further away from the body in order to maintain the testes at an ‘optimal’ temperature for spermatogenesis (sensu Moore, 1926; Tsperm) and sperm storage of 34–35 °C (Setchell, 1998; Gallup et al., 2009; Mawyer et al., 2012). In humans, the scrotal temperature is maintained about 2.7 °C lower than the Tb (Momen et al., 2010).Notwithstanding the relative fitness benefits of a cooled epididymis vs. the cooled testis, four nonmutually exclusive hypotheses currently dominate explanations for the evolution of the scrotum: the Cool Spermatogenesis Hypothesis (Moore, 1926), the Galloping Hypothesis (Frey, 1991), the Mutation Hypothesis (Short, 1997) and the Activation Hypothesis (Gallup et al., 2009).

Cool Spermatogenesis Hypothesis

...argued that Tsperm and the maintenance of sperm viability during storage in the epididymis is about 34–35 °C (Moore, 1926; Appell et al., 1977). Scrotal temperatures that approach those of the core Tbcompromise fertility (Moore, 1926; Bedford, 1978b, 2004; Setchell, 1998), particularly if evaporative cooling of the scrotum is impaired (Momen et al., 2010).

The Galloping Hypothesis

... (Frey, 1991)proposes a trade‐off between testes vulnerability (fitness cost) and the avoidance of strong intra‐abdominal pressure fluctuations during galloping which impair spermatogenesis in abdominal testes (fitness benefit).

The Mutation Hypothesis

... maintains that the testis is a ‘hot spot’ for germ‐cell mutations and that the lower temperatures of the scrotum reduce the rates of mutation on the Y chromosome through mutagenic metabolites (Short, 1997).

The Activation Hypothesis

... storage of sperm at a lowered temperature ensures that they undergo ‘thermal shock’ during ejaculation into the higher temperatures of the female, which increases their motility and hence the probability of a successful insemination (Gallup et al., 2009).

share|improve this answer

answered 16 mins ago

user 33690

1,420417

Well the previous answer by @Anand Jadhav has already explained the prima facie of your question which is: sperms need lower temperature for development.But I will be explaining in my answer : why the sperms actually need a lower temperature for its development

This is a debatable subject but there have been several models or hypothesis about this. I found this literature on it and it summarises the thing excellently.Hope it helps:

Throughout the Cenozoic, the fitness benefits of the scrotum in placental mammals presumably outweighed the fitness costs through damage, yet a definitive hypothesis for its evolution remains elusive. Here, I present an hypothesis (Endothermic Pulses Hypothesis) which argues that the evolution of the scrotum was driven by Cenozoic pulses in endothermy, that is, increases in normothermic body temperature.... The model argues that stabilizing selection maintained an optimum temperature for spermatogenesis and sperm storage throughout the Cenozoic at the lower plesiomorphic levels of body temperature that prevailed in ancestral mammals for at least 163 million years. Evolutionary stasis may have been driven by reduced rates of germ‐cell mutations at lower body temperatures... The fitness advantages of an optimum temperature of spermatogenesis outweighed the potential costs of testes externalization and paved the way for the evolution of the scrotum. The scrotum evolved within several hundred thousand years of the K‐Pg extinction, probably associated initially with the evolution of cursoriality, and arguably facilitated mid‐ and late Cenozoic metabolic adaptations to factors such as climate, flight in bats and sociality in primates.

About the function of the scrotum from the article

The scrotum is a sac‐like thermoregulatory structure that houses the testes at a temperature lower than the core body temperature (Tb; Moore, 1926; Wislocki, 1933; Ruibal, 1957; Setchell, 1998). The cremasteric muscles in the scrotum contract and relax to draw the testes closer to or allow them to dangle further away from the body in order to maintain the testes at an ‘optimal’ temperature for spermatogenesis (sensu Moore, 1926; Tsperm) and sperm storage of 34–35 °C (Setchell, 1998; Gallup et al., 2009; Mawyer et al., 2012). In humans, the scrotal temperature is maintained about 2.7 °C lower than the Tb (Momen et al., 2010).Notwithstanding the relative fitness benefits of a cooled epididymis vs. the cooled testis, four nonmutually exclusive hypotheses currently dominate explanations for the evolution of the scrotum: the Cool Spermatogenesis Hypothesis (Moore, 1926), the Galloping Hypothesis (Frey, 1991), the Mutation Hypothesis (Short, 1997) and the Activation Hypothesis (Gallup et al., 2009).

Cool Spermatogenesis Hypothesis

...argued that Tsperm and the maintenance of sperm viability during storage in the epididymis is about 34–35 °C (Moore, 1926; Appell et al., 1977). Scrotal temperatures that approach those of the core Tbcompromise fertility (Moore, 1926; Bedford, 1978b, 2004; Setchell, 1998), particularly if evaporative cooling of the scrotum is impaired (Momen et al., 2010).

The Galloping Hypothesis

... (Frey, 1991)proposes a trade‐off between testes vulnerability (fitness cost) and the avoidance of strong intra‐abdominal pressure fluctuations during galloping which impair spermatogenesis in abdominal testes (fitness benefit).

The Mutation Hypothesis

... maintains that the testis is a ‘hot spot’ for germ‐cell mutations and that the lower temperatures of the scrotum reduce the rates of mutation on the Y chromosome through mutagenic metabolites (Short, 1997).

The Activation Hypothesis

... storage of sperm at a lowered temperature ensures that they undergo ‘thermal shock’ during ejaculation into the higher temperatures of the female, which increases their motility and hence the probability of a successful insemination (Gallup et al., 2009).

share|improve this answer

answered 16 mins ago

user 33690

1,420417

share|improve this answer

share|improve this answer

answered 16 mins ago

user 33690

1,420417

answered 16 mins ago

user 33690

1,420417

answered 16 mins ago

user 33690

1,420417

1,420417

add a comment | 

add a comment | 

up vote
1
down vote

A mature human sperm has some mitochondria, a nucleus, an acrosome and a flagellar apparatus. That's it. Because of the lack of other organelles in the sperm, they have to be kept in a kind of 'cold storage' so that they are viable for at least some time (usually a couple of days). The ideal temperature would be 1.8°C to 2.5°C below normal body temperature, i.e. 37.6 °C or 98 F. If a man takes frequent hot water baths, his sperm count becomes low as the mature sperms get dessicated quickly.

The reason that women don't require this strict temperature regulation is that the mature ovum has the complete cellular machinery at it's disposal- mitochondria, nucleus, golgi bodies, ER, the works. So it can remain viable for a much longer time (about 7 days after ovulation) and has higher temperature tolerance than sperms.

share|improve this answer

answered 1 hour ago

user29774

384

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  can you add please some refferencis? Specially this "Because of the lack of other organelles in the sperm" made me quite suspicious.
  – L.Diago
  1 hour ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  @K Sai Harsha how do you know that this answer is scientifically correct let alone accept it?
  – user 33690
  10 mins ago
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  @user33690 I changed my answer.
  – K Sai Harsha
  9 mins ago
  

  
  
  
  

add a comment | 

up vote
1
down vote

A mature human sperm has some mitochondria, a nucleus, an acrosome and a flagellar apparatus. That's it. Because of the lack of other organelles in the sperm, they have to be kept in a kind of 'cold storage' so that they are viable for at least some time (usually a couple of days). The ideal temperature would be 1.8°C to 2.5°C below normal body temperature, i.e. 37.6 °C or 98 F. If a man takes frequent hot water baths, his sperm count becomes low as the mature sperms get dessicated quickly.

The reason that women don't require this strict temperature regulation is that the mature ovum has the complete cellular machinery at it's disposal- mitochondria, nucleus, golgi bodies, ER, the works. So it can remain viable for a much longer time (about 7 days after ovulation) and has higher temperature tolerance than sperms.

share|improve this answer

answered 1 hour ago

user29774

384

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  can you add please some refferencis? Specially this "Because of the lack of other organelles in the sperm" made me quite suspicious.
  – L.Diago
  1 hour ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  @K Sai Harsha how do you know that this answer is scientifically correct let alone accept it?
  – user 33690
  10 mins ago
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  @user33690 I changed my answer.
  – K Sai Harsha
  9 mins ago
  

  
  
  
  

add a comment | 

up vote
1
down vote

up vote
1
down vote

A mature human sperm has some mitochondria, a nucleus, an acrosome and a flagellar apparatus. That's it. Because of the lack of other organelles in the sperm, they have to be kept in a kind of 'cold storage' so that they are viable for at least some time (usually a couple of days). The ideal temperature would be 1.8°C to 2.5°C below normal body temperature, i.e. 37.6 °C or 98 F. If a man takes frequent hot water baths, his sperm count becomes low as the mature sperms get dessicated quickly.

The reason that women don't require this strict temperature regulation is that the mature ovum has the complete cellular machinery at it's disposal- mitochondria, nucleus, golgi bodies, ER, the works. So it can remain viable for a much longer time (about 7 days after ovulation) and has higher temperature tolerance than sperms.

share|improve this answer

answered 1 hour ago

user29774

384

A mature human sperm has some mitochondria, a nucleus, an acrosome and a flagellar apparatus. That's it. Because of the lack of other organelles in the sperm, they have to be kept in a kind of 'cold storage' so that they are viable for at least some time (usually a couple of days). The ideal temperature would be 1.8°C to 2.5°C below normal body temperature, i.e. 37.6 °C or 98 F. If a man takes frequent hot water baths, his sperm count becomes low as the mature sperms get dessicated quickly.

The reason that women don't require this strict temperature regulation is that the mature ovum has the complete cellular machinery at it's disposal- mitochondria, nucleus, golgi bodies, ER, the works. So it can remain viable for a much longer time (about 7 days after ovulation) and has higher temperature tolerance than sperms.

share|improve this answer

answered 1 hour ago

user29774

384

share|improve this answer

share|improve this answer

answered 1 hour ago

user29774

384

answered 1 hour ago

user29774

384

answered 1 hour ago

user29774

384

384

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  can you add please some refferencis? Specially this "Because of the lack of other organelles in the sperm" made me quite suspicious.
  – L.Diago
  1 hour ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  @K Sai Harsha how do you know that this answer is scientifically correct let alone accept it?
  – user 33690
  10 mins ago
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  @user33690 I changed my answer.
  – K Sai Harsha
  9 mins ago
  

  
  
  
  

add a comment | 

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  can you add please some refferencis? Specially this "Because of the lack of other organelles in the sperm" made me quite suspicious.
  – L.Diago
  1 hour ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  @K Sai Harsha how do you know that this answer is scientifically correct let alone accept it?
  – user 33690
  10 mins ago
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  @user33690 I changed my answer.
  – K Sai Harsha
  9 mins ago
  

  
  
  
  

1

1

can you add please some refferencis? Specially this "Because of the lack of other organelles in the sperm" made me quite suspicious.
– L.Diago
1 hour ago

can you add please some refferencis? Specially this "Because of the lack of other organelles in the sperm" made me quite suspicious.
– L.Diago
1 hour ago

@K Sai Harsha how do you know that this answer is scientifically correct let alone accept it?
– user 33690
10 mins ago

@K Sai Harsha how do you know that this answer is scientifically correct let alone accept it?
– user 33690
10 mins ago

1

1

@user33690 I changed my answer.
– K Sai Harsha
9 mins ago

@user33690 I changed my answer.
– K Sai Harsha
9 mins ago

add a comment | 

up vote
0
down vote

To keep sperm viable in natural body condition they are kept in relative lower temperature than the body temperature & this can achived by scrotum.As sperm produce in testis and testis situated in scrotum outside the main part of body a pouch like structure.this arrangement going to help to achive slight lesser temperature relative to body temperature.definatly frequent hot water bath will lower the sperm count by hampering spermatogenesis as it disturb the normal physiological conditions inside the testis by increasing temperature.

Other side in female, body temperature is not going to affect the oogenesis(ovum formation process).Instead of that you will see increase in basal body temperature(about 0.5 c) during ovulation(release of ovum) that means hot water bath no issue for female fertility.

share|improve this answer

edited 48 mins ago

answered 53 mins ago

An J

11

New contributor

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

• 
  
  
  

  
  

  
  
  
  
  
  

  
  Hi, its good aswer, but can you add some refferences to your claims?
  – L.Diago
  29 mins ago
  

  
  
  
  

add a comment | 

up vote
0
down vote

To keep sperm viable in natural body condition they are kept in relative lower temperature than the body temperature & this can achived by scrotum.As sperm produce in testis and testis situated in scrotum outside the main part of body a pouch like structure.this arrangement going to help to achive slight lesser temperature relative to body temperature.definatly frequent hot water bath will lower the sperm count by hampering spermatogenesis as it disturb the normal physiological conditions inside the testis by increasing temperature.

Other side in female, body temperature is not going to affect the oogenesis(ovum formation process).Instead of that you will see increase in basal body temperature(about 0.5 c) during ovulation(release of ovum) that means hot water bath no issue for female fertility.

share|improve this answer

edited 48 mins ago

answered 53 mins ago

An J

11

New contributor

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

• 
  
  
  

  
  

  
  
  
  
  
  

  
  Hi, its good aswer, but can you add some refferences to your claims?
  – L.Diago
  29 mins ago
  

  
  
  
  

add a comment | 

up vote
0
down vote

up vote
0
down vote

To keep sperm viable in natural body condition they are kept in relative lower temperature than the body temperature & this can achived by scrotum.As sperm produce in testis and testis situated in scrotum outside the main part of body a pouch like structure.this arrangement going to help to achive slight lesser temperature relative to body temperature.definatly frequent hot water bath will lower the sperm count by hampering spermatogenesis as it disturb the normal physiological conditions inside the testis by increasing temperature.

Other side in female, body temperature is not going to affect the oogenesis(ovum formation process).Instead of that you will see increase in basal body temperature(about 0.5 c) during ovulation(release of ovum) that means hot water bath no issue for female fertility.

share|improve this answer

edited 48 mins ago

answered 53 mins ago

An J

11

New contributor

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

To keep sperm viable in natural body condition they are kept in relative lower temperature than the body temperature & this can achived by scrotum.As sperm produce in testis and testis situated in scrotum outside the main part of body a pouch like structure.this arrangement going to help to achive slight lesser temperature relative to body temperature.definatly frequent hot water bath will lower the sperm count by hampering spermatogenesis as it disturb the normal physiological conditions inside the testis by increasing temperature.

Other side in female, body temperature is not going to affect the oogenesis(ovum formation process).Instead of that you will see increase in basal body temperature(about 0.5 c) during ovulation(release of ovum) that means hot water bath no issue for female fertility.

share|improve this answer

edited 48 mins ago

answered 53 mins ago

An J

11

New contributor

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

share|improve this answer

share|improve this answer

edited 48 mins ago

edited 48 mins ago

edited 48 mins ago

answered 53 mins ago

An J

11

New contributor

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

answered 53 mins ago

An J

11

answered 53 mins ago

An J

11

11

New contributor

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

New contributor

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

An J is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

• 
  
  
  

  
  

  
  
  
  
  
  

  
  Hi, its good aswer, but can you add some refferences to your claims?
  – L.Diago
  29 mins ago
  

  
  
  
  

add a comment | 

• 
  
  
  

  
  

  
  
  
  
  
  

  
  Hi, its good aswer, but can you add some refferences to your claims?
  – L.Diago
  29 mins ago
  

  
  
  
  

Hi, its good aswer, but can you add some refferences to your claims?
– L.Diago
29 mins ago

Hi, its good aswer, but can you add some refferences to your claims?
– L.Diago
29 mins ago

add a comment | 

K Sai Harsha is a new contributor. Be nice, and check out our Code of Conduct.

 

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