Continuing with the final critique by Bret T of our suggested route for
the Jaredites from the Valley of Nimrod southeast and then south toward the
Great Sea. The earlier critique comments and our responses were covered in the
previous three posts.
Bret T: “[A number
of things favor an eastern course. For another thing,] a terrain favorable to
cattle-raising nomads and conditions to which the Asiatic rather than the
European areas conform.”
Response: First,
nobody is discussing the Jaredites traveling toward Europe, though frankly, the
cattle-raising aspect of your comment would have been better in that direction. However, traveling to
the west would not have been an option consistent with the scriptural record. Second,
driving cattle across 8,000 to 13,000 feet, snow-capped mountain passes hardly
sounds like a terrain favorable to cattle-raising nomads.
Driving flocks of
animals across these Atlai Mountain passes on the way down to China from the
Steppes hardly seems like a terrain favorable to cattle-raising or movement.
One can only wonder how any cattleman would have considered such a cattle-drive,
including families with children and babies
Third, as has been mentioned here
many times, when one has a location in mind, they tend to defend it without
much research into the facts involved. In this case, Bret T wants to move the
Jaredites toward the east, and evidently knowing something about the Steppes,
recognizes that the grazing for cattle along the way would be consistent with
such travel on the grass-filled Steppes. However, there is more to moving cattle than finding grass for
feed. What about the temperatures in which cattle can survive?
While the temperature along the
Steppes may seem conducive to cattle raising, according to the Strahlers (Elements of Physical Geography, Wiley
and Sons, 1984), the Asian Steppes winters drop to temperatures of -40º F, far
below what cattle can manage. And since there are no trees that grow on the
Steppes other than by rivers, there is nothing to block the howling winds. In
addition, if generally rains a lot on the Steppes, and to compensate, the
ancient people of the Steppes were nomadic, moving to where the water supply
was best. Today they drill deep wells and create irrigation systems, but the
climate is still to harsh to support cities and industries (As
a point of interest, the difference between steppes and deserts are determined
by the mean annual temperatures and precipitation. With a little less rain the
steppe could easily turn into a desert. More rain, and it would be classified a
prairie).
The Steppes in winter. The ground is
frozen and snow and ice cover the ground
According
to National Geographic, the average temperatures throughout much of the Steppes
are below freezing from November to March and around the freezing point during
October and April. Averages of -4°F in January and February are not uncommon. Long, snowy, subarctic winter
conditions are a trying time for all, as are the short springs, which can feature
significant dust storms in May and June. Precipitation is scarce and
unpredictable, a climactic condition that helped to spawn both the steppes and
the nomadic lifestyle they sustain. When one considers the years travel across these Steppes, one can recognize that the Jaredites would have experienced more than one of these winters while crossing because of "these many years we have been in the wilderness" (Ether 3:3).
This area between the Caspian Sea
and China, called Central Asia, across which roll the Steppes, is a landlocked
area between vast deserts and high, rugged mountains, which influences its
weather patterns. Mountains
block moisture-laden winds from the oceans, causing the climate to be dry as
well as having extreme heat and cold because it lacks maritime air masses which
would otherwise moderate the temperature. In addition, it has a large diurnal
temperature range, meaning that there is a substantial difference between
daytime highs and overnight lows--something that adversely affects cattle.
This
is the land over which Nibley and Bret T would have the Jaredites travel. Now,
keep in mind, other than the effect of temperature and elevation extremes on
babies and children, this climate also would have an effect on animals. Bret states above that “A number of things favor an eastern course. For another thing, a terrain favorable to
cattle-raising nomads and conditions to which the Asiatic areas conform.”
The Jaredites were told to “Go
to and gather together thy flocks, both male and female, of every kind” (Ether
1:41). The term every kind suggest that “flocks” refers to more than just
sheep. According to Webster’s 1828 American
Dictionary of the English Language, the word “flock” at the time Joseph
Smith was translating the plates also meant “larger beasts, and in the plural,
flocks may include all kinds of domesticated animals.” Thus, the flocks the
Jaredites gathered “of every kind” would evidently have included cattle.
Cattle
on the Steppes—Mongolian (Kalmyk, Kyrgyz, Buriat and Yakut) native
cattle breed descended from Asian wild cattle (Bos turano mongolicus) that
lived on the Central Asian Plateau and were domesticated from wild cattle about
2000 years ago
So
let’s take a look at moving cattle along the route eastward that has been
suggested.
According to the
University of Arkansas Division of Agriculture, cattle perform better between
temperatures of 59º and 77º, and Tom Troxel, professor and associate department
head for animal science said “for every one degree below the critical temperature,
a cow’s energy requirement increases one percent,” which means they require a
compensating energy increase—more food. However, the problem is when such
change is sudden and temporary (like crossing snow-covered mountains, or extreme overnight temperature drops), a sudden
increase in energy requirements to help them maintain normal body temperature
is not healthy since they require gradual increases and decreases in diet, not
sudden ones.
In addition, when
cattle get wet, the air insulation in their coat is lost because the hair
fibers are matted down in cold rain. It is also necessary for the protection of
cattle against extreme cold temperatures that they have shelter—and drinking
water needs to be above 37º F. Temperatures below 20º F require special treatment
for cattle, including warmer water to drink, frequent feeding (roughage far
better than grain), shelter from wind, and bundling to insulate them against
the ground.
According to AGWeek,
(2012), cattle do not do well in temperatures below -20º or in blizzards, even
in North Dakota, and are especially susceptible to hypothermia brought on by
cold wet weather. Young cattle are particularly susceptible to cold
temperatures, and even older cattle when exposed for two or three days straight
to such temperature and conditions, and especially require protection from
winds and insulation from the ground—something that would be impossible to do
on the march across high mountain passes.
According to a New York Times article (August 1, 2011),
cattle above 5,000 feet elevation experience health problems because of a shortage
of oxygen, causing their lungs to constrict and fluids to leak from the
bloodstream into the brisket (chest area), in what is called HMD—high mountain
or altitude sickness (pulmonary hypertension and dropsy), and commonly known as
brisket disease. More recent studies show that cattle at 3,000 feet are
susceptible and above 6,000 feet are most at risk, and 7,500 feet the most
critical elevations.
The problem is in the lack of lung capacity, where cattle
have less for their body weight compared to most animals. The high altitude causes small pulmonary
arteries to thicken, resulting in high pulmonary blood pressure, and
congestive right heart failure. According to Tim Holt (Ft. Collins, Colorado),
the consensus world expert on HMD, and the guru of PAP testing says that cattle
that live at low elevations and then are taken to higher elevations of 5,000 to
6,000 feet, are particularly susceptible. And according to New Mexico State
University cattle research facility, livestock taken above 7,000 feet, which is
a high stress environment for cattle, are at inborn risk to this deadly disease.
Mongolian Yaks, treasured for their
luxury-fiber down, which is less sustainable than chasmere, and used like
cattle for milk, meet, and burden have different requirements
As a point of
interest, the wild Tibetan Yak (male gyag;
female nak), a relative of cattle, from
the Himalayan region cannot live below 10,000 to 12,000 feet, and is normally
at home at 14,000 feet, and can withstand great temperature extremes, with a
high resistance to cold; the Gobi Yak thrives between 5,000 and 6,500 feet. Mongolian
Yaks of the Steppes live above 700 feet, and unlike oxen or cattle, do poorly
in low elevations and warm temperatures. The Yak is quite suitable to high
elevations, and will eat the grasses and vegetation at these heights no other
animal will eat. This only shows that animals are subject to their habitats and
require a similar climate and temperature to which they are accustomed--and when moved beyond their natural levels, do poorly.
A several year trek
over continually varying elevations and high mountain passes, with varying and
extreme temperature changes, would not only be difficult on the people,
especially women, children and babies, but also on the “flocks of every kind.”
Briefly, to round out
the bees and fish the Jaredites carried with them, bees are very susceptible to
climate and environment. Honey bees raised at sea level in humid and warm
climates (Mesopotamia) would not do well at all in high altitudes and cold
temperatures. An important problem with bees at high elevations and under
45-50º F, is that they become dormant. Bees will naturally seal up their hive
in winter and cold temperatures and require sufficient honey stored in them to
last—at least 150 pounds per hive. Another problem is that they draw bears to
their hives in winter, and traveling through mountains is bear country. Hives
have to be protected against winds (a constant problem on the Steppes), snow
and ice (constant problems in mountains).
As for fish, the
further they are transported, the greater the risk, and the more stressful the
transport, the less tolerant are the fish. It is also imperative in fish
transport to keep their water at an even temperature—the greater the variance,
the less likely of survival. The idea of transporting fish through drastic
temperature changes required in an eastward journey over mountains and across
deserts with huge climate variances is simply not possible—it would be far
better to transport them across a rather even temperature climate and in the
shortest distance possible.
All of this suggests
a much shorter Jaredite line of travel than that going east across the Steppes
and over three mountain ranges.
Fish transport from what I know requires plastic bags and bottled oxygen, neither of which would have been available to the Jaredites. Also, the longer the trip, the more oxygen that would be needed. How did the Jaredites mange such a thing?
ReplyDeleteI would love to have the original Jaredite record to read that—I think it would be a fascinating concept of how this and other such things were accomplished. I would also love to know how the stones were turned to light, etc. But that will have to wait for some time, I suppose.
ReplyDeleteAs for the fish--from what I know about fish transport, oxygen can be created naturally through several means, especially in barrels. And wood barrels, by the way, are preferable in transporting fish, even today--plastic is used only for very short time periods. By adding water to the barrel to two-thirds its capacity, and allowing some movement of the barrel during transport (today on a pickup truck or tractor on a farm, as an example), oxygen is added through agitation, aeration or oxygenation. The fish can be suspended in the barrel within (knotless) nets to protect them, and cradles made of wood can support the barrel, yet allow sufficient movement to agitate the water and create oxygen. Also a type of bellows could be used to insert oxygen, etc. I’m sure the Lord, in his vast wisdom, knows of ways to handle such a project and could have instructed the Jaredites as he did with building the barges themselves “after the manner which they had built, according to the instructions of the Lord” Ether 2:16)
It is not that transporting of fish cannot be achieved with the proper equipment, it is done every day over very great distances, but that certain precautions are taken and care for the fish understood. How the Lord instructed the Jaredites to do this we are not told, but that He would have known how to do it is obvious.
Personally, I think, since even temperature is critical, that a 4,000 mile trip over extreme weather conditions and severe temperature and elevation swings would have been quite detrimental and most difficult to compensate for...where the shorter distance over consistent temperatures and elevation would seem far preferable.