Dear Jonathan, as Roy points out, the m denotes a metastable state. I try to describe metastates in the description of the table as:
77mGe is the metastable state of the isotope germanium-77 with a halflife of 6.27e-04 days I haven't proposed any metastable state of polonium, so 210mPo was a bad example. I should mention that isotopes can even have several metastates, e.g. americium: 242m1Am is the metastable state of the isotope americium-242 with a halflife of 5.53e+04 days 242m2Am is the metastable state of the isotope americium-242 with a halflife of 1.62e-07 days The list is not complete, as standard-names never are. It is just the list of the isotopes we regularly use. Best regards, Heiko On 2018-01-18 20:09, Lowry, Roy K. wrote: > Dear Jonathan, > > > My view is unchanged about embedding the isotope names in the Standard > Name. A 30% increase in the Standard Name count is trivial compared to > the 3000% increase that biological taxa could bring in, even for the > limited subset of taxa falling in BODC's sphere of interest. We should > maybe be thinking about the practicalities of implementation of Ticket > 99 rather than wait for the first large-scale biological Standard Names > request, but without blocking Heiko's current work. > > > Have a look at https://en.wikipedia.org/wiki/Nuclear_isomer for what in > my view is quite a nice description of meta-states (aka nuclear > isomers), which is what is designated by the 'm'. > > > Cheers, Roy. > > <https://en.wikipedia.org/wiki/Nuclear_isomer> > > Nuclear isomer - Wikipedia <https://en.wikipedia.org/wiki/Nuclear_isomer> > en.wikipedia.org > A nuclear isomer is a metastable state of an atomic nucleus caused by > the excitation of one or more of its nucleons (protons or neutrons). > "Metastable" describes ... > > > > Please note that I partially retired on 01/11/2015. I am now only > working 7.5 hours a week and can only guarantee e-mail response on > Wednesdays, my day in the office. All vocabulary queries should be sent > to enquir...@bodc.ac.uk. Please also use this e-mail if your requirement > is urgent. > > > > ------------------------------------------------------------------------ > *From:* CF-metadata <cf-metadata-boun...@cgd.ucar.edu> on behalf of > Jonathan Gregory <j.m.greg...@reading.ac.uk> > *Sent:* 18 January 2018 17:24 > *To:* cf-metadata@cgd.ucar.edu > *Subject:* Re: [CF-metadata] Standard_name proposal for volcanic ash and > radioactive particles > > Dear Heiko > > I agree with the construction of these standard names. I see that you are > proposing ~1000 new standard names. The table currently contains ~3000, so > this is not overwhelming, but it is a substantial increment, so I'm just > asking again to confirm: Are we certain that we prefer to do it this way, > with the isotopes in the standard names (like chemical species)? > > What does mPo mean, by the way (compared with just Po)? > > Best wishes > > Jonathan > > ----- Forwarded message from Heiko Klein <heiko.kl...@met.no> ----- > >> Date: Wed, 17 Jan 2018 15:10:53 +0100 >> From: Heiko Klein <heiko.kl...@met.no> >> To: "Lowry, Roy K." <r...@bodc.ac.uk>, Jonathan Gregory >> <j.m.greg...@reading.ac.uk>, "cf-metadata@cgd.ucar.edu" >> <cf-metadata@cgd.ucar.edu> >> Subject: Re: [CF-metadata] Standard_name proposal for volcanic ash and >> radioactive particles >> User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:52.0) Gecko/20100101 >> Thunderbird/52.5.0 >> >> Dear all, >> >> I have the feeling that we all agree now on the usage of isotopes as >> symbols. With this post I try to summarize the proposed standard-names: >> >> >> >> Ash: >> >> mass_concentration_of_volcanic_ash_in_air >> canonical units: g/m^3 >> description: Mass concentration means mass per unit volume and is >> used in the construction mass_concentration_of_X_in_Y, where X is a >> material constituent of Y. "Volcanic_ash" means the fine-grained >> products of explosive volcanic eruptions, such as minerals or >> crystals, older fragmented rock (e.g. andesite), and glass. Particles >> within a volcanic ash cloud have diameters less than 2 mm. >> "Volcanic_ash" does not include non-volcanic dust. >> >> >> >> Radioactivity (without naming the isotopes, general case): >> >> radioactivity_concentration_in_air >> Bq/m3 >> Radioactivity concentration means activity per unit volume >> where activity denotes the number of decays of the material per second. >> >> surface_radioactivity_content >> Bq/m2 >> "surface" means the lower boundary of the atmosphere. "Content" >> indicates a quantity per unit area. Radioactivity of X means the number >> of radioactive decays per second. >> >> integral_wrt_time_of_radioactivity_concentration_in_air >> Bq*s/m3 >> The phrase "integral_wrt_X_of_Y" means int Y dX. The >> data variable should have an axis for X specifying the limits of the >> integral as bounds. "wrt" means with respect to. Radioactivity >> concentration means activity per unit volume where activity denotes the >> number of decays per second. >> >> >> >> When naming the isotope, the names are: >> radioactivity_concentration_of_X_in_air >> surface_radioactivity_content_of_X >> integral_wrt_time_of_radioactivity_concentration_of_X_in_air >> with X denoting the isotope as 210mPo. A list of proposed standard-names >> and descriptions (including full element-names) of these is attached. >> >> I hope this summary makes this proposal easier to implement in the >> standard-name table. >> >> Best regards, >> >> Heiko >> >> >> >> >> >> On 2018-01-05 10:30, Lowry, Roy K. wrote: >> > Dear Heiko, >> > >> > >> > That syntax works for me and makes the case for isotopes as symbols. >> > >> > >> > Cheers, Roy. >> > >> > >> > Please note that I partially retired on 01/11/2015. I am now only >> > working 7.5 hours a week and can only guarantee e-mail response on >> > Wednesdays, my day in the office. All vocabulary queries should be sent >> > to enquir...@bodc.ac.uk. Please also use this e-mail if your requirement >> > is urgent. >> > >> > >> > >> > ------------------------------------------------------------------------ >> > *From:* Heiko Klein <heiko.kl...@met.no> >> > *Sent:* 05 January 2018 08:04 >> > *To:* Lowry, Roy K.; Jonathan Gregory; cf-metadata@cgd.ucar.edu >> > *Subject:* Re: [CF-metadata] Standard_name proposal for volcanic ash and >> > radioactive particles >> > >> > Dear Jonathan and Roy, >> > >> > while this is not part of the current proposal, we should think of >> > radionuclides in special chemical bindings. One of the most important >> > one is that of iodine and there we could have: >> > >> > 133I_as_methyl_iodide >> > 132I_as_methyl_iodide >> > >> > as well as >> > >> > 133I_as_hydrogen_iodide >> > 132I_as_hydrogen_iodide >> > >> > >> > By using IUPAC symbols for isotopes and chemical names for chemical >> > elements and compounds, we can have a nice and readable distinction >> > between these two. >> > >> > Basically, I think we all agree that mixed case IUPAC symbols are the >> > best candidate. I will start preparing a list with all proposed names. >> > >> > Heiko >> > >> > >> > On 2018-01-04 17:31, Lowry, Roy K. wrote: >> >> Dear Jonathan, >> >> >> >> >> >> My case for the hyphen is that to me it's a more natural candidate as a >> >> search target. However, if we accept mixed case IUPAC symbols for >> >> isotopes then this becomes a non-issue. In my view it would be extremely >> >> unwise to allow symbols other than for isotopes as we already have >> >> chemical names in the Standard Names. >> >> >> >> >> >> Cheers, Roy. >> >> >> >> >> >> Please note that I partially retired on 01/11/2015. I am now only >> >> working 7.5 hours a week and can only guarantee e-mail response on >> >> Wednesdays, my day in the office. All vocabulary queries should be sent >> >> to enquir...@bodc.ac.uk. Please also use this e-mail if your requirement >> >> is urgent. >> >> >> >> >> >> >> >> ------------------------------------------------------------------------ >> >> *From:* CF-metadata <cf-metadata-boun...@cgd.ucar.edu> on behalf of >> >> Jonathan Gregory <j.m.greg...@reading.ac.uk> >> >> *Sent:* 04 January 2018 16:12 >> >> *To:* cf-metadata@cgd.ucar.edu >> >> *Subject:* [CF-metadata] Standard_name proposal for volcanic ash and >> >> radioactive particles >> >> >> >> Dear Heiko and Roy >> >> >> >> I agree with both of you that 210Po would be best i.e. requiring >> >> case-sensitive >> >> symbols for elements. The reason that standard names are (at present) >> >> all lower >> >> case is that case-sensitivity would simply be an opportunity for people >> >> to make >> >> mistakes, while not making them any clearer. I would expect that all >> >> scientists >> >> are aware that the symbols for chemical elements are case-sensitive so >> >> getting >> >> them right will be OK, if we draw attention specifically to this >> >> exception. >> >> >> >> Unlike you, if mixed case isn't acceptable to others, I'd prefer >> >> polonium210, >> >> because I don't think including _ or - would make it easier to understand. >> >> >> >> Another issue, though: we already have element *names* in many standard >> >> names. >> >> I presume we are not proposing to replace these with chemical element >> >> symbols. >> >> That is, we will not start writing Po for polonium in general. Is this new >> >> orthography just for the case when you want to specify a particular >> >> isotope? >> >> >> >> I'm glad that "radioactivity" is acceptable to experts. I hope it won't be >> >> confusing. I do think that people from other disciplines will be alerted >> >> by >> >> that word more effectively. >> >> >> >> Best wishes >> >> >> >> Jonathan >> >> >> >> ----- Forwarded message from Heiko Klein <heiko.kl...@met.no> ----- >> >> >> >>> Date: Thu, 4 Jan 2018 11:07:18 +0100 >> >>> From: Heiko Klein <heiko.kl...@met.no> >> >>> To: "Lowry, Roy K." <r...@bodc.ac.uk>, Jonathan Gregory >> >>> <j.m.greg...@reading.ac.uk>, "cf-metadata@cgd.ucar.edu" >> >>> <cf-metadata@cgd.ucar.edu> >> >>> Subject: Re: [CF-metadata] Standard_name proposal for volcanic ash and >> >>> radioactive particles >> >>> User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:52.0) Gecko/20100101 >> >>> Thunderbird/52.5.0 >> >>> >> >>> Dear Roy, >> >>> >> >>> I agree very much with the nomenclature used in the BODC dictionary. >> >>> >> >>> I would rule out a few of your options: When thinking of metastates, >> >>> some cases don't work, f.e. 180mta and 180mtantalum. >> >>> As you also mentioned, the number before the full-name (210-polonium) in >> >>> never used, either number before abbreviation (210Po) or number after >> >>> full-name (polonium-210). Thus the options are slightly less, but the >> >>> preference remains the same: >> >>> >> >>> 210Po (requires mixed case) >> >>> polonium-210 (requires hyphens) >> >>> polonium_210 >> >>> polonium210 >> >>> >> >>> >> >>> Best regards, >> >>> >> >>> Heiko >> >>> >> >>> >> >>> On 2018-01-04 10:35, Lowry, Roy K. wrote: >> >>> > Dear Heiko, >> >>> > >> >>> > >> >>> > For reference, the presentation syntax we use in the BODC parameter >> >>> > dictionary is of the form: >> >>> > >> >>> > >> >>> > Activity of polonium-210 {210Po CAS 13981-52-7} per unit dry weight of >> >>> > suspended particulate material by filtration and gamma spectroscopy >> >>> > (high-purity Ge detector) >> >>> > >> >>> > >> >>> > We use 'activity' as the technical term from the radio-chemistry >> >>> > community for decays per unit time, but I could live with >> >>> > 'radioactivity', even though its semantics to specialists are much >> >>> > broader. >> >>> > >> >>> > >> >>> > We have a built-in synonym exposure and so are able to use two >> >>> > representations of the isotope name. We went for polonium-210 rather >> >>> > than 210-polonium due to common English language usage (try Googling >> >>> > 210-polonium: the top hits come back as polonium-210). The syntax 210Po >> >>> > is the only way to stay sane when writing formulae for compounds >> >>> > containing multiple isotopes. As you say, the ability to use >> >>> > superscripts would be very helpful, but that isn't going to happen in >> >>> > Standard Names! >> >>> > >> >>> > >> >>> > My vote for isotope labelling syntax depends upon what established >> >>> > conventions (if any) the CF community are prepared to break - mixed >> >>> > case >> >>> > or hyphens. The alternatives in my order or preference are: >> >>> > >> >>> > >> >>> > 210Po (requires mixed case) >> >>> > >> >>> > 210po >> >>> > >> >>> > polonium-210 (requires hyphens) >> >>> > >> >>> > 210-polonium (requires hyphens) >> >>> > >> >>> > polonium_210 >> >>> > >> >>> > 210_polonium >> >>> > >> >>> > polonium210 >> >>> > >> >>> > 210polonium >> >>> > >> >>> > >> >>> > So our preferences are the same. >> >>> > >> >>> > >> >>> > Cheers, Roy. >> >>> > >> >>> > >> >>> > Please note that I partially retired on 01/11/2015. I am now only >> >>> > working 7.5 hours a week and can only guarantee e-mail response on >> >>> > Wednesdays, my day in the office. All vocabulary queries should be sent >> >>> > to enquir...@bodc.ac.uk. Please also use this e-mail if your >> >>> > requirement >> >>> > is urgent. >> >>> > >> >>> > >> >>> > >> >>> > ------------------------------------------------------------------------ >> >>> > *From:* CF-metadata <cf-metadata-boun...@cgd.ucar.edu> on behalf of >> >>> > Heiko Klein <heiko.kl...@met.no> >> >>> > *Sent:* 04 January 2018 08:49 >> >>> > *To:* Jonathan Gregory; cf-metadata@cgd.ucar.edu >> >>> > *Subject:* Re: [CF-metadata] Standard_name proposal for volcanic ash >> >>> > and >> >>> > radioactive particles >> >>> > >> >>> > Dear Jonathan and Roy, >> >>> > >> >>> > after some internal discussions, we agree to the change of the name >> >>> > from >> >>> > activity_* to radioactivity_* to make the name more universal. >> >>> > >> >>> > Concerning the names of the radionuclides, we will need to include the >> >>> > mass-number, since there is no other distinction. I suggest using >> >>> > mass-number and the IUPAC element abbreviation, e.g. 3H. Typically, the >> >>> > 3 should be a superscript but that won't be possible here. Metastates >> >>> > are then named like 180mTa. This requires upper-case letters. >> >>> > >> >>> > If CF-standard_names don't like abbreviations, an alternative would be >> >>> > to use the hyphen notation, i.e. hydrogen-3 and tantalum-180m (see >> >>> > https://en.wikipedia.org/wiki/Isotope) - but I have never seen > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> >> >> Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> en.wikipedia.org >> >> Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> >> number of protons and neutrons in the nucleus, for example carbon-13 >> >> with 6 protons and 7 neutrons. >> >> >> >> >> >> >> >>> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> >> >> Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> en.wikipedia.org >> >> Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> >> number of protons and neutrons in the nucleus, for example carbon-13 >> >> with 6 protons and 7 neutrons. >> >> >> >> >> >> >> >>> > >> >>> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> >> >> Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > >> > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > <https://en.wikipedia.org/wiki/Isotope> > > Isotope - Wikipedia <https://en.wikipedia.org/wiki/Isotope> > en.wikipedia.org > Isotope vs. nuclide. A nuclide is a species of an atom with a specific > number of protons and neutrons in the nucleus, for example carbon-13 > with 6 protons and 7 neutrons. > > > >> > en.wikipedia.org >> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> > number of protons and neutrons in the nucleus, for example carbon-13 >> > with 6 protons and 7 neutrons. >> > >> > >> > >> >> en.wikipedia.org >> >> Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> >> number of protons and neutrons in the nucleus, for example carbon-13 >> >> with 6 protons and 7 neutrons. >> >> >> >> >> >> >> >>> > en.wikipedia.org >> >>> > Isotope vs. nuclide. A nuclide is a species of an atom with a specific >> >>> > number of protons and neutrons in the nucleus, for example carbon-13 >> >>> > with 6 protons and 7 neutrons. >> >>> > >> >>> > >> >>> > >> >>> > radionuclides been written out except on wikipedia, and the >> >>> > CF-guideline >> >>> > document forbids dash '-' as far as I can see. So I prefer the >> >>> > abbreviation. >> >>> > >> >>> > Best regards, >> >>> > >> >>> > Heiko >> >>> > >> >>> > >> >>> > On 2018-01-03 18:22, Jonathan Gregory wrote: >> >>> >> Dear Heiko and Roy >> >>> >> >> >>> >> I am happy to agree with you that we should retain the radioactive >> >>> >> species in >> >>> >> the standard names, given (a) the number is not huge and as Roy said >> >>> >> they would >> >>> >> be added only as needed, (b) the distinction between these species >> >>> >> and other >> >>> >> chemical species is blurred, (c) there is no satisfactory external >> >>> >> authority >> >>> >> we could rely upon. We should be systematic about how we write the >> >>> >> names of >> >>> >> these species, as far as possible. For chemical species, we have not >> >>> >> used >> >>> >> numerals, and they are in lower case, as all standard names are (so >> >>> >> far). I'm >> >>> >> not sure those conventions can work for the names of nuclides though. >> >>> >> >> >>> >> Best wishes >> >>> >> >> >>> >> Jonathan >> >>> >> >> >>> >> ----- Forwarded message from "Lowry, Roy K." <r...@bodc.ac.uk> ----- >> >>> >> >> >>> >>> Date: Wed, 3 Jan 2018 13:52:01 +0000 >> >>> >>> From: "Lowry, Roy K." <r...@bodc.ac.uk> >> >>> >>> To: Heiko Klein <heiko.kl...@met.no>, Jonathan Gregory >> >>> >>> <j.m.greg...@reading.ac.uk>, "cf-metadata@cgd.ucar.edu" >> >>> >>> <cf-metadata@cgd.ucar.edu>, SCHERLLIN-PIRSCHER Barbara >> >>> >>> <barbara.scherllin-pirsc...@zamg.ac.at> >> >>> >>> Subject: RE: [CF-metadata] Standard_name proposal for volcanic ash >> >>> >>> and >> >>> >>> radioactive particles >> >>> >>> >> >>> >>> Hi Heiko, >> >>> >>> >> >>> >>> Check with Alison to see if you need to do anything to prevent the >> >>> >>> volcanic ash proposal becoming blocked. >> >>> >>> >> >>> >>> There are more possible isotopes than I intuitively expected, but as >> >>> >>> CF philosophy is only to generate Standard Names on an 'as needed' >> >>> >>> basis the numbers should be manageable. Having the possibility of >> >>> >>> stable and radioactive compounds - say H2O (water) and 3H2O >> >>> >>> (tritiated water) - makes the clean separation of 'isotopes' and >> >>> > 'chemicals' impossible and could get very messy with say 'water' >> >>> > included in the Standard Name and 'tritiated water' normalised out into >> >>> > an isotope controlled vocabulary. >> >>> >>> >> >>> >>> Consequently, I share your preference for managing isotopes as >> >>> >>> chemicals in Standard names. >> >>> >>> >> >>> >>> Cheers, Roy. >> >>> >>> >> >>> >>> -----Original Message----- >> >>> >>> From: Heiko Klein [mailto:heiko.kl...@met.no] >> >>> >>> Sent: 03 January 2018 13:13 >> >>> >>> To: Lowry, Roy K. <r...@bodc.ac.uk>; Jonathan Gregory >> >>> >>> <j.m.greg...@reading.ac.uk>; cf-metadata@cgd.ucar.edu; >> >>> >>> SCHERLLIN-PIRSCHER Barbara <barbara.scherllin-pirsc...@zamg.ac.at> >> >>> >>> Subject: Re: [CF-metadata] Standard_name proposal for volcanic ash >> >>> >>> and radioactive particles >> >>> >>> >> >>> >>> Dear Roy and Jonathan, >> >>> >>> >> >>> >>> should I split the volcanic ash and radioactive partcles proposal? >> >>> >>> It seems like ash is easily accepted, while radioactivity needs some >> >>> >>> discussions. >> >>> >>> >> >>> >>> I will here with our experts if radioactivity can replace activity, >> >>> >>> or if this is ambiguous in the nuclear community. >> >>> >>> >> >>> >>> Concerning the isotopes, my current list has close to 400 elements. >> >>> >>> Most of them are pure radionuclides / isotopes, but some of them are >> >>> >>> radioactive meta-states (with different half-life), and others are >> >>> >>> chemical compounds of radioactive isotopes, which have very >> >>> >>> different transport properties and/or effects (e.g. > iodine as >> >>> > I2, ICH3, ICs) >> >>> >>> >> >>> >>> The IAEA International Radiological Information Exchange (IRIX) >> >>> >>> format >> >>> >>> http://bip.paa.gov.pl/download/105/23784/Zalacznik6IRIXFormatv10ReferenceDescription.pdf >> >>> >>> allows either nuclides directly or nuclide combinations, but even >> >>> >>> this expert format has problems covering most cases. >> >>> >>> >> >>> >>> I prefer having everything in the standard_name, in particular if >> >>> >>> there is no external community actively doing own standardization. >> >>> >>> In addition, I don't even know what to call this external list, >> >>> >>> 'radioactive_material' maybe, to allow for both nuclides, metastates >> >>> >>> and compounds? I still hope to get them into the >> >>> > standard_name liste. >> >>> >>> >> >>> >>> Best regards, >> >>> >>> >> >>> >>> Heiko >> >>> >>> >> >>> >>> >> >>> >>> >> >>> >>> >> >>> >>> On 2017-12-22 17:43, Lowry, Roy K. wrote: >> >>> >>>> Dear Jonathan, >> >>> >>>> >> >>> >>>> >> >>> >>>> I think the number of possible isotope names is relatively small >> >>> >>>> (<100 >> >>> >>>> - please correct me if I'm wrong) compared to the thousand upon >> >>> >>>> thousand of possible biological taxa. If so, I wonder if normalising >> >>> >>>> out the isotope name is worth the effort of maintaining the standard >> >>> >>>> list and complication to client software. >> >>> >>>> >> >>> >>>> >> >>> >>>> Cheers, Roy. >> >>> >>>> >> >>> >>>> >> >>> >>>> Please note that I partially retired on 01/11/2015. I am now only >> >>> >>>> working 7.5 hours a week and can only guarantee e-mail response on >> >>> >>>> Wednesdays, my day in the office. All vocabulary queries should be >> >>> >>>> sent to enquir...@bodc.ac.uk. Please also use this e-mail if your >> >>> >>>> requirement is urgent. >> >>> >>>> >> >>> >>>> >> >>> >>>> >> >>> >>>> ---------------------------------------------------------------------- >> >>> >>>> -- >> >>> >>>> *From:* CF-metadata <cf-metadata-boun...@cgd.ucar.edu> on behalf of >> >>> >>>> Jonathan Gregory <j.m.greg...@reading.ac.uk> >> >>> >>>> *Sent:* 22 December 2017 15:17 >> >>> >>>> *To:* cf-metadata@cgd.ucar.edu >> >>> >>>> *Subject:* Re: [CF-metadata] Standard_name proposal for volcanic ash >> >>> >>>> and radioactive particles >> >>> >>>> >> >>> >>>> Dear Heiko and Barbara >> >>> >>>> >> >>> >>>> I see that "activity concentration" is an technical term, but in the >> >>> >>>> broader context of the CF standard name table I feel it would be >> >>> >>>> better to say radioactivity_concentration and radioactivity_content, >> >>> >>>> to make it clear what sort of activity it's about. >> >>> >>>> >> >>> >>>> As you say, we name chemical species in standard names, but there >> >>> >>>> are >> >>> >>>> not so many of these that have been requested. I think it's a choice >> >>> >>>> to be made about whether isotopes should be named explicitly. In the >> >>> >>>> analogous case of biological taxa, >> >>> >>>> https://cf-trac.llnl.gov/trac/ticket/99 discussed not putting their >> >>> >>>> identifiers in the standard name. That discussion wasn't concluded. >> >>> >>>> A >> >>> >>>> similar approach could be taken here, of putting "isotope" in the >> >>> >>>> standard name, and requiring there to be a string-valued coordinate >> >>> >>>> variable identifying the isotope from a standard list (like area >> >>> >>>> types >> >>> >>>> and regions). >> >>> >>>> >> >>> >>>> Best wishes >> >>> >>>> >> >>> >>>> Jonathan >> >>> >>>> >> >>> >>>> ----- Forwarded message from Heiko Klein <heiko.kl...@met.no> ----- >> >>> >>>> >> >>> >>>>> Date: Fri, 22 Dec 2017 09:41:42 +0100 >> >>> >>>>> From: Heiko Klein <heiko.kl...@met.no> >> >>> >>>>> To: SCHERLLIN-PIRSCHER Barbara >> >>> >>>>> <barbara.scherllin-pirsc...@zamg.ac.at>, >> >>> >>>>> "cf-metadata@cgd.ucar.edu" <cf-metadata@cgd.ucar.edu> >> >>> >>>>> Subject: Re: [CF-metadata] Standard_name proposal for volcanic ash >> >>> >>>>> and >> >>> >>>>> radioactive particles >> >>> >>>>> User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:52.0) Gecko/20100101 >> >>> >>>>> Thunderbird/52.5.0 >> >>> >>>>> >> >>> >>>>> Dear Barbara and list, >> >>> >>>>> >> >>> >>>>> I agree with you that both volcanic ash and nuclear particles are >> >>> >>>>> insufficiently reflected in the standard-name table and we need a >> >>> >>>>> proposal for new names. >> >>> >>>>> >> >>> >>>>> We have 'atmosphere_mass_content_of_volcanic_ash' which is the >> >>> >>>>> column >> >>> >>>>> load and for concentrations, we have mass_concentration_of_*_in_air >> >>> >>>>> so I would slightly modify your parameter and propose: >> >>> >>>>> >> >>> >>>>> mass_concentration_of_volcanic_ash_in_air >> >>> >>>>> canonical units: g/m^3 >> >>> >>>>> description: Mass concentration means mass per unit volume and is >> >>> >>>>> used in the construction mass_concentration_of_X_in_Y, where X is a >> >>> >>>>> material constituent of Y. "Volcanic_ash" means the fine-grained >> >>> >>>>> products of explosive volcanic eruptions, such as minerals or >> >>> >>>>> crystals, older fragmented rock (e.g. andesite), and glass. >> >>> >>>>> Particles >> >>> >>>>> within a volcanic ash cloud have diameters less than 2 mm. >> >>> >>>>> "Volcanic_ash" does not include non-volcanic dust. >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> Concerning radioactivity, the situation is more difficult. I would >> >>> >>>>> say we have 2 basic types: concentrations in air and depositions, >> >>> >>>>> and >> >>> >>>>> the time-integral of the first. I would call depositions >> >>> >>>>> 'surface_content' >> >>> >>>>> in CF, since content is defined as: a quantity per unit area. I >> >>> >>>>> propose the following: >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> activity_concentration_of_X_in_air (Bq/m3) >> >>> >>>>> Description: Activity concentration means activity per unit volume >> >>> >>>>> and is used in the construction activity_concentration_of_X_in_Y, >> >>> >>>>> where X is a radioactive material and activity denotes the number >> >>> >>>>> of >> >>> >>>>> decays of the material per second. >> >>> >>>>> >> >>> >>>>> surface_activity_content_of_X (Bq/m2) >> >>> >>>>> Description: "surface" means the lower boundary of the atmosphere. >> >>> >>>>> "Content" indicates a quantity per unit area. activity of X means >> >>> >>>>> the >> >>> >>>>> number of radioactive decays of the material X per second. >> >>> >>>>> >> >>> >>>>> The first is often integrated over time for dose-calculations, i.e. >> >>> >>>>> integral_wrt_time in CF-nomenclature: >> >>> >>>>> >> >>> >>>>> integral_wrt_time_of_activity_concentration_of_X_in_air (Bq*s/m3) >> >>> >>>>> Description: The phrase "integral_wrt_X_of_Y" means int Y dX. The >> >>> >>>>> data variable should have an axis for X specifying the limits of >> >>> >>>>> the >> >>> >>>>> integral as bounds. "wrt" means with respect to. Activity >> >>> >>>>> concentration means activity per unit volume and is used in the >> >>> >>>>> construction activity_concentration_of_X_in_Y, where X is a >> >>> >>>>> radioactive material and activity denotes the number of decays of >> >>> >>>>> the material per second. >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> The tricky part is the X here, which is a very long list of >> >>> >>>>> radioactive isotopes. I attach the list which is in active use for >> >>> >>>>> us, i.e. 383 nuclides including a few meta-states and chemical >> >>> >>>>> speciations in particular for Iodine. Usual names for thes ar the >> >>> >>>>> second and third column, i.e. H3, Na24, Ar41, Ge77m, Ge77 ... In >> >>> >>>>> CF, >> >>> >>>>> it is most common to have these names in the standard-name (X in >> >>> >>>>> above proposals) I'm not sure if it is practical possible to add >> >>> >>>>> these 4*383 standard-names to the list? If it is just a question >> >>> >>>>> of formatting, I can try to do that. >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> Best regards, >> >>> >>>>> >> >>> >>>>> Heiko >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> >> >>> >>>>> On 2017-12-18 14:36, SCHERLLIN-PIRSCHER Barbara wrote: >> >>> >>>>>> Dear all, >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> I'd like to ask some questions about appropriate standard names of >> >>> >>>>>> some >> >>> >>>>>> variables: >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> I'm looking for the standard name of mean concentration of >> >>> >>>>>> volcanic >> >>> >>>>>> ash at specific altitude levels. >> >>> >>>>>> >> >>> >>>>>> I used >> >>> >>>>>> >> >>> >>>>>> mass_concentration_of_ash_in_air >> >>> >>>>>> >> >>> >>>>>> but the CF convention checker realizes that this is an invalid >> >>> >>>>>> standard_name. >> >>> >>>>>> >> >>> >>>>>> Unfortunately, I did not find a valid standard name yet. Do you >> >>> >>>>>> have any recommendations? >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> Furthermore, I'm looking for some standard names for variables >> >>> >>>>>> related to radioactivity. >> >>> >>>>>> >> >>> >>>>>> I used >> >>> >>>>>> >> >>> >>>>>> deposited_activity_concentration (in Bq/m2). >> >>> >>>>>> >> >>> >>>>>> and >> >>> >>>>>> >> >>> >>>>>> time_integrated_activity_concentration_in_air (Bq s/m3). >> >>> >>>>>> >> >>> >>>>>> The first variable contains information about the deposited >> >>> >>>>>> activity concentration that depends on the type of the nuclide, >> >>> >>>>>> time, latitude, and longitude. >> >>> >>>>>> >> >>> >>>>>> The second variable contains information about the time-integrated >> >>> >>>>>> activity concentration of different radionuclides at specific >> >>> >>>>>> levels. >> >>> >>>>>> It's dimensions are type of the nuclide, time, height, latitude, >> >>> >>>>>> and longitude. >> >>> >>>>>> >> >>> >>>>>> Do you have any recommendation concerning the standard names of >> >>> >>>>>> these variables? >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> Finally, I need to define a variable that contains the information >> >>> >>>>>> about the radioactive nuclide itself. I defined a character >> >>> >>>>>> variable that uses the (invalid) standard name: >> >>> >>>>>> >> >>> >>>>>> radioactive_nuclides >> >>> >>>>>> >> >>> >>>>>> Do you also have advice for the standard name of this variable? >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> Thanks a lot for your help! >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> Best regards, >> >>> >>>>>> >> >>> >>>>>> Barbara >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> Dr. Barbara Scherllin-Pirscher >> >>> >>>>>> >> >>> >>>>>> Fachabteilung Chemische Wettervorhersage/Section Chemical Weather >> >>> >>>>>> Forecasts >> >>> >>>>>> >> >>> >>>>>> Bereich Daten, Methoden, Modelle/Division Data, Methods, Models >> >>> >>>>>> >> >>> >>>>>> ZAMG - Zentralanstalt für Meteorologie und Geodynamik >> >>> >>>>>> >> >>> >>>>>> A-1190 Wien, Hohe Warte 38 >> >>> >>>>>> >> >>> >>>>>> Tel.: +43 1 36026 2380 >> >>> >>>>>> >> >>> >>>>>> Fax: +43 1 36026 74 >> >>> >>>>>> >> >>> >>>>>> E-Mail: barbara.scherllin-pirsc...@zamg.ac.at >> >>> >>>>>> <mailto:barbara.scherllin-pirsc...@zamg.ac.at>__ >> >>> >>>>>> >> >>> >>>>>> www.zamg.ac.at <http://www.zamg.ac.at> <http://www.zamg.ac.at> > <http://www.zamg.ac.at> >> > <http://www.zamg.ac.at> >> >> <http://www.zamg.ac.at> >> >>> > <http://www.zamg.ac.at/> >> >>> >>>>>> >> >>> >>>>>> Join us on facebook: www.facebook.com/zamg.at >> >>> >>>>>> <http://www.facebook.com/zamg.at> > <http://www.facebook.com/zamg.at> >> > <http://www.facebook.com/zamg.at> >> >> <http://www.facebook.com/zamg.at> >> >>> >>>>>> <http://www.facebook.com/zamg.at> >> >>> >>>>>> >> >>> >>>>>> Beschreibung: Beschreibung: Beschreibung: Beschreibung: >> >>> >>>>>> Beschreibung: >> >>> >>>>>> cid:099c01ccebf6$aa43e440$7ba4168a@zadpc6 <http://www.zamg.at/> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> >> >>> >>>>>> _______________________________________________ >> >>> >>>>>> CF-metadata mailing list >> >>> >>>>>> CF-metadata@cgd.ucar.edu >> >>> >>>>>> http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >>> >>>>>> >> >>> >>>>> >> >>> >>>>> -- >> >>> >>>>> Dr. Heiko Klein Norwegian Meteorological >> >>> >>>>> Institute >> >>> >>>>> Tel. + 47 22 96 32 58 P.O. Box 43 Blindern >> >>> >>>>> http://www.met.no 0313 Oslo NORWAY >> >>> >>>> >> >>> >>>>> 1 H - 3 0 0.178E-08 >> >>> >>>>> 2 Na- 24 2 0.128E-04 >> >>> >>>>> 3 Ar- 41 0 0.105E-03 >> >>> >>>>> 4 Co- 58 2 0.113E-06 >> >>> >>>>> 5 Co- 60 2 0.416E-08 >> >>> >>>>> 6 Zn- 72 2 0.414E-05 >> >>> >>>>> 7 Ga- 72 2 0.137E-04 >> >>> >>>>> 8 Ga- 73 2 0.395E-04 >> >>> >>>>> 9 Ge- 75 2 0.140E-03 >> >>> >>>>> 10 Ge- 77m 2 0.128E-01 >> >>> >>>>> 11 Ge- 77 2 0.170E-04 >> >>> >>>>> 12 Ge- 78 2 0.133E-03 >> >>> >>>>> 13 As- 77 2 0.496E-05 >> >>> >>>>> 14 As- 78 2 0.127E-03 >> >>> >>>>> 15 Se- 79 2 0.338E-12 >> >>> >>>>> 16 Se- 81m 2 0.202E-03 >> >>> >>>>> 17 Se- 81 2 0.625E-03 >> >>> >>>>> 18 Se- 83m 2 0.990E-02 >> >>> >>>>> 19 Se- 83 2 0.513E-03 >> >>> >>>>> 20 Br- 82m 2 0.189E-02 >> >>> >>>>> 21 Br- 82 2 0.544E-05 >> >>> >>>>> 22 Br- 83 2 0.802E-04 >> >>> >>>>> 23 Br- 84m 2 0.193E-02 >> >>> >>>>> 24 Br- 84 2 0.363E-03 >> >>> >>>>> 25 Kr- 83m 0 0.104E-03 >> >>> >>>>> 26 Kr- 85m 0 0.438E-04 >> >>> >>>>> 27 Kr- 85 0 0.203E-08 >> >>> >>>>> 28 Kr- 87 0 0.152E-03 >> >>> >>>>> 29 Kr- 88 0 0.686E-04 >> >>> >>>>> 30 Kr- 89 0 0.364E-02 >> >>> >>>>> 31 Rb- 86m 2 0.114E-01 >> >>> >>>>> 32 Rb- 86 2 0.430E-06 >> >>> >>>>> 33 Rb- 87 2 0.470E-18 >> >>> >>>>> 34 Rb- 88 2 0.642E-03 >> >>> >>>>> 35 Rb- 89 2 0.760E-03 >> >>> >>>>> 36 Sr- 89 2 0.154E-06 >> >>> >>>>> 37 Sr- 90 2 0.787E-09 >> >>> >>>>> 38 Sr- 91 2 0.203E-04 >> >>> >>>>> 39 Sr- 92 2 0.711E-04 >> >>> >>>>> 40 Y - 90m 2 0.604E-04 >> >>> >>>>> 41 Y - 90 2 0.301E-05 >> >>> >>>>> 42 Y - 91m 2 0.232E-03 >> >>> >>>>> 43 Y - 91 2 0.137E-06 >> >>> >>>>> 44 Y - 92 2 0.545E-04 >> >>> >>>>> 45 Y - 93 2 0.189E-04 >> >>> >>>>> 46 Y - 94 2 0.608E-03 >> >>> >>>>> 47 Y - 95 2 0.110E-02 >> >>> >>>>> 48 Zr- 93 2 0.231E-13 >> >>> >>>>> 49 Zr- 95 2 0.123E-06 >> >>> >>>>> 50 Zr- 97 2 0.115E-04 >> >>> >>>>> 51 Nb- 94m 2 0.185E-02 >> >>> >>>>> 52 Nb- 94 2 0.110E-11 >> >>> >>>>> 53 Nb- 95m 2 0.222E-05 >> >>> >>>>> 54 Nb- 95 2 0.228E-06 >> >>> >>>>> 55 Nb- 96 2 0.823E-05 >> >>> >>>>> 56 Nb- 97m 2 0.128E-01 >> >>> >>>>> 57 Nb- 97 2 0.157E-03 >> >>> >>>>> 58 Nb- 98 2 0.227E-03 >> >>> >>>>> 59 Mo- 99 2 0.289E-05 >> >>> >>>>> 60 Mo-101 2 0.791E-03 >> >>> >>>>> 61 Mo-102 2 0.104E-02 >> >>> >>>>> 62 Tc- 99m 2 0.320E-04 >> >>> >>>>> 63 Tc- 99 2 0.103E-12 >> >>> >>>>> 64 Tc-101 2 0.814E-03 >> >>> >>>>> 65 Tc-102m 2 0.269E-02 >> >>> >>>>> 66 Tc-102 2 0.131E+00 >> >>> >>>>> 67 Tc-104 2 0.642E-03 >> >>> >>>>> 68 Ru-103 2 0.203E-06 >> >>> >>>>> 69 Ru-105 2 0.434E-04 >> >>> >>>>> 70 Ru-106 2 0.219E-07 >> >>> >>>>> 71 Rh-103m 2 0.206E-03 >> >>> >>>>> 72 Rh-105m 2 0.182E-01 >> >>> >>>>> 73 Rh-105 2 0.542E-05 >> >>> >>>>> 74 Rh-106m 2 0.883E-04 >> >>> >>>>> 75 Rh-106 2 0.232E-01 >> >>> >>>>> 76 Rh-107 2 0.532E-03 >> >>> >>>>> 77 Pd-107m 2 0.325E-01 >> >>> >>>>> 78 Pd-107 2 0.338E-14 >> >>> >>>>> 79 Pd-109 2 0.143E-04 >> >>> >>>>> 80 Pd-111m 2 0.350E-04 >> >>> >>>>> 81 Pd-111 2 0.525E-03 >> >>> >>>>> 82 Pd-112 2 0.958E-05 >> >>> >>>>> 83 Ag-109m 2 0.175E-01 >> >>> >>>>> 84 Ag-110m 2 0.297E-07 >> >>> >>>>> 85 Ag-111m 2 0.937E-02 >> >>> >>>>> 86 Ag-111 2 0.107E-05 >> >>> >>>>> 87 Ag-112 2 0.615E-04 >> >>> >>>>> 88 Ag-113m 2 0.105E-01 >> >>> >>>>> 89 Ag-113 2 0.363E-04 >> >>> >>>>> 90 Ag-115m 2 0.408E-01 >> >>> >>>>> 91 Ag-115 2 0.550E-03 >> >>> >>>>> 92 Cd-111m 2 0.237E-03 >> >>> >>>>> 93 Cd-113m 2 0.151E-08 >> >>> >>>>> 94 Cd-113 2 0.244E-23 >> >>> >>>>> 95 Cd-115m 2 0.180E-06 >> >>> >>>>> 96 Cd-115 2 0.360E-05 >> >>> >>>>> 97 Cd-117m 2 0.566E-04 >> >>> >>>>> 98 Cd-117 2 0.741E-04 >> >>> >>>>> 99 Cd-118 2 0.230E-03 >> >>> >>>>> 100 In-113m 2 0.116E-03 >> >>> >>>>> 101 In-115m 2 0.428E-04 >> >>> >>>>> 102 In-115 2 0.431E-23 >> >>> >>>>> 103 In-116m 2 0.213E-03 >> >>> >>>>> 104 In-116 2 0.488E-01 >> >>> >>>>> 105 In-117m 2 0.993E-04 >> >>> >>>>> 106 In-117 2 0.263E-03 >> >>> >>>>> 107 In-118m 2 0.263E-02 >> >>> >>>>> 108 In-118 2 0.139E+00 >> >>> >>>>> 109 In-119m 2 0.642E-03 >> >>> >>>>> 110 In-119 2 0.462E-02 >> >>> >>>>> 111 Sn-117m 2 0.573E-06 >> >>> >>>>> 112 Sn-119m 2 0.328E-07 >> >>> >>>>> 113 Sn-121m 2 0.440E-09 >> >>> >>>>> 114 Sn-121 2 0.718E-05 >> >>> >>>>> 115 Sn-123m 2 0.289E-03 >> >>> >>>>> 116 Sn-123 2 0.622E-07 >> >>> >>>>> 117 Sn-125 2 0.831E-06 >> >>> >>>>> 118 Sn-126 2 0.220E-12 >> >>> >>>>> 119 Sn-127 2 0.908E-04 >> >>> >>>>> 120 Sn-128 2 0.196E-03 >> >>> >>>>> 121 Sn-130 2 0.312E-02 >> >>> >>>>> 122 Sb-124m 2 0.569E-03 >> >>> >>>>> 123 Sb-124 2 0.133E-06 >> >>> >>>>> 124 Sb-125 2 0.805E-08 >> >>> >>>>> 125 Sb-126m 2 0.608E-03 >> >>> >>>>> 126 Sb-126 2 0.647E-06 >> >>> >>>>> 127 Sb-127 2 0.211E-05 >> >>> >>>>> 128 Sb-128m 2 0.111E-02 >> >>> >>>>> 129 Sb-128 2 0.214E-04 >> >>> >>>>> 130 Sb-129 2 0.444E-04 >> >>> >>>>> 131 Sb-130m 2 0.175E-02 >> >>> >>>>> 132 Sb-130 2 0.312E-03 >> >>> >>>>> 133 Sb-131 2 0.502E-03 >> >>> >>>>> 134 Te-125m 2 0.138E-06 >> >>> >>>>> 135 Te-127m 2 0.736E-07 >> >>> >>>>> 136 Te-127 2 0.205E-04 >> >>> >>>>> 137 Te-129m 2 0.240E-06 >> >>> >>>>> 138 Te-129 2 0.165E-03 >> >>> >>>>> 139 Te-131m 2 0.642E-05 >> >>> >>>>> 140 Te-131 2 0.462E-03 >> >>> >>>>> 141 Te-132 2 0.247E-05 >> >>> >>>>> 142 Te-133m 2 0.209E-03 >> >>> >>>>> 143 Te-133 2 0.924E-03 >> >>> >>>>> 144 Te-134 2 0.275E-03 >> >>> >>>>> 145 I -129 1 0.138E-14 >> >>> >>>>> 146 I -130m 1 0.130E-02 >> >>> >>>>> 147 I -130 1 0.155E-04 >> >>> >>>>> 148 I -131 1 0.994E-06 >> >>> >>>>> 149 I -132 1 0.836E-04 >> >>> >>>>> 150 I -133m 1 0.770E-01 >> >>> >>>>> 151 I -133 1 0.921E-05 >> >>> >>>>> 152 I -134m 1 0.321E-02 >> >>> >>>>> 153 I -134 1 0.222E-03 >> >>> >>>>> 154 I -135 1 0.288E-04 >> >>> >>>>> 155 Xe-129m 0 0.100E-05 >> >>> >>>>> 156 Xe-131m 0 0.680E-06 >> >>> >>>>> 157 Xe-133m 0 0.355E-05 >> >>> >>>>> 158 Xe-133 0 0.152E-05 >> >>> >>>>> 159 Xe-134m 0 0.239E+01 >> >>> >>>>> 160 Xe-135m 0 0.743E-03 >> >>> >>>>> 161 Xe-135 0 0.210E-04 >> >>> >>>>> 162 Xe-137 0 0.296E-02 >> >>> >>>>> 163 Xe-138 0 0.815E-03 >> >>> >>>>> 164 Cs-134m 2 0.664E-04 >> >>> >>>>> 165 Cs-134 2 0.107E-07 >> >>> >>>>> 166 Cs-135m 2 0.218E-03 >> >>> >>>>> 167 Cs-135 2 0.956E-14 >> >>> >>>>> 168 Cs-136 2 0.617E-06 >> >>> >>>>> 169 Cs-137 2 0.729E-09 >> >>> >>>>> 170 Cs-138 2 0.359E-03 >> >>> >>>>> 171 Ba-135m 2 0.671E-05 >> >>> >>>>> 172 Ba-137m 2 0.453E-02 >> >>> >>>>> 173 Ba-139 2 0.139E-03 >> >>> >>>>> 174 Ba-140 2 0.627E-06 >> >>> >>>>> 175 La-140 2 0.456E-05 >> >>> >>>>> 176 La-141 2 0.498E-04 >> >>> >>>>> 177 La-142 2 0.125E-03 >> >>> >>>>> 178 La-143 2 0.825E-03 >> >>> >>>>> 179 Ce-141 2 0.243E-06 >> >>> >>>>> 180 Ce-142 2 0.440E-24 >> >>> >>>>> 181 Ce-143 2 0.584E-05 >> >>> >>>>> 182 Ce-144 2 0.282E-07 >> >>> >>>>> 183 Ce-146 2 0.814E-03 >> >>> >>>>> 184 Pr-142m 2 0.791E-03 >> >>> >>>>> 185 Pr-142 2 0.101E-04 >> >>> >>>>> 186 Pr-143 2 0.591E-06 >> >>> >>>>> 187 Pr-144m 2 0.161E-02 >> >>> >>>>> 188 Pr-144 2 0.669E-03 >> >>> >>>>> 189 Pr-145 2 0.322E-04 >> >>> >>>>> 190 Pr-146 2 0.477E-03 >> >>> >>>>> 191 Pr-147 2 0.963E-03 >> >>> >>>>> 192 Nd-144 2 0.105E-22 >> >>> >>>>> 193 Nd-147 2 0.730E-06 >> >>> >>>>> 194 Nd-149 2 0.111E-03 >> >>> >>>>> 195 Nd-151 2 0.932E-03 >> >>> >>>>> 196 Nd-152 2 0.101E-02 >> >>> >>>>> 197 Pm-147 2 0.838E-08 >> >>> >>>>> 198 Pm-148m 2 0.194E-06 >> >>> >>>>> 199 Pm-148 2 0.149E-05 >> >>> >>>>> 200 Pm-149 2 0.363E-05 >> >>> >>>>> 201 Pm-150 2 0.718E-04 >> >>> >>>>> 202 Pm-151 2 0.678E-05 >> >>> >>>>> 203 Pm-152m 2 0.642E-03 >> >>> >>>>> 204 Pm-152 2 0.282E-02 >> >>> >>>>> 205 Sm-147 2 0.205E-18 >> >>> >>>>> 206 Sm-148 2 0.275E-23 >> >>> >>>>> 207 Sm-149 2 0.220E-23 >> >>> >>>>> 208 Sm-151 2 0.236E-09 >> >>> >>>>> 209 Sm-153 2 0.414E-05 >> >>> >>>>> 210 Sm-155 2 0.520E-03 >> >>> >>>>> 211 Sm-156 2 0.205E-04 >> >>> >>>>> 212 Eu-154 2 0.256E-08 >> >>> >>>>> 213 Eu-155 2 0.458E-08 >> >>> >>>>> 214 Eu-156 2 0.528E-06 >> >>> >>>>> 215 Eu-157 2 0.127E-04 >> >>> >>>>> 216 Eu-158 2 0.252E-03 >> >>> >>>>> 217 Eu-159 2 0.638E-03 >> >>> >>>>> 218 Gd-159 2 0.104E-04 >> >>> >>>>> 219 Gd-162 2 0.116E-02 >> >>> >>>>> 220 Tb-160 2 0.111E-06 >> >>> >>>>> 221 Tb-161 2 0.116E-05 >> >>> >>>>> 222 Tb-162m 2 0.863E-04 >> >>> >>>>> 223 Tb-162 2 0.155E-02 >> >>> >>>>> 224 Tb-163 2 0.592E-03 >> >>> >>>>> 225 Dy-165 2 0.819E-04 >> >>> >>>>> 226 Hg-206 2 0.144E-02 >> >>> >>>>> 227 Tl-206 2 0.276E-02 >> >>> >>>>> 228 Tl-207 2 0.241E-02 >> >>> >>>>> 229 Tl-208 2 0.373E-02 >> >>> >>>>> 230 Tl-209 2 0.525E-02 >> >>> >>>>> 231 Tl-210 2 0.889E-02 >> >>> >>>>> 232 Pb-207m 2 0.866E+00 >> >>> >>>>> 233 Pb-209 2 0.583E-04 >> >>> >>>>> 234 Pb-210 2 0.105E-08 >> >>> >>>>> 235 Pb-211 2 0.320E-03 >> >>> >>>>> 236 Pb-212 2 0.181E-04 >> >>> >>>>> 237 Pb-213 2 0.116E-02 >> >>> >>>>> 238 Pb-214 2 0.431E-03 >> >>> >>>>> 239 Bi-209 2 0.110E-25 >> >>> >>>>> 240 Bi-210 2 0.160E-05 >> >>> >>>>> 241 Bi-211 2 0.537E-02 >> >>> >>>>> 242 Bi-212 2 0.191E-03 >> >>> >>>>> 243 Bi-213 2 0.246E-03 >> >>> >>>>> 244 Bi-214 2 0.586E-03 >> >>> >>>>> 245 Bi-215 2 0.165E-02 >> >>> >>>>> 246 Po-210 2 0.580E-07 >> >>> >>>>> 247 Po-211 2 0.133E+01 >> >>> >>>>> 248 Po-212 2 0.228E+07 >> >>> >>>>> 249 Po-213 2 0.165E+06 >> >>> >>>>> 250 Po-214 2 0.423E+04 >> >>> >>>>> 251 Po-215 2 0.389E+03 >> >>> >>>>> 252 Po-216 2 0.462E+01 >> >>> >>>>> 253 Po-217 2 0.693E-01 >> >>> >>>>> 254 Po-218 2 0.379E-02 >> >>> >>>>> 255 At-215 2 0.693E+04 >> >>> >>>>> 256 At-216 2 0.231E+04 >> >>> >>>>> 257 At-217 2 0.217E+02 >> >>> >>>>> 258 At-218 2 0.347E+00 >> >>> >>>>> 259 At-219 2 0.128E-01 >> >>> >>>>> 260 Rn-218 2 0.198E+02 >> >>> >>>>> 261 Rn-219 2 0.173E+00 >> >>> >>>>> 262 Rn-220 2 0.126E-01 >> >>> >>>>> 263 Rn-221 2 0.462E-03 >> >>> >>>>> 264 Rn-222 2 0.210E-05 >> >>> >>>>> 265 Rn-223 2 0.269E-03 >> >>> >>>>> 266 Fr-221 2 0.241E-02 >> >>> >>>>> 267 Fr-222 2 0.781E-03 >> >>> >>>>> 268 Fr-223 2 0.525E-03 >> >>> >>>>> 269 Ra-222 2 0.182E-01 >> >>> >>>>> 270 Ra-223 0 0.702E-06 >> >>> >>>>> 271 Ra-224 0 0.220E-05 >> >>> >>>>> 272 Ra-225 0 0.542E-06 >> >>> >>>>> 273 Ra-226 0 0.137E-10 >> >>> >>>>> 274 Ra-227 0 0.280E-03 >> >>> >>>>> 275 Ra-228 0 0.328E-08 >> >>> >>>>> 276 Ra-229 0 0.693E+12 >> >>> >>>>> 277 Ac-225 2 0.802E-06 >> >>> >>>>> 278 Ac-226 2 0.664E-05 >> >>> >>>>> 279 Ac-227 2 0.102E-08 >> >>> >>>>> 280 Ac-228 2 0.314E-04 >> >>> >>>>> 281 Ac-229 2 0.175E-03 >> >>> >>>>> 282 Th-226 2 0.374E-03 >> >>> >>>>> 283 Th-227 2 0.441E-06 >> >>> >>>>> 284 Th-228 2 0.115E-07 >> >>> >>>>> 285 Th-229 2 0.299E-11 >> >>> >>>>> 286 Th-230 2 0.275E-12 >> >>> >>>>> 287 Th-231 2 0.755E-05 >> >>> >>>>> 288 Th-232 2 0.156E-17 >> >>> >>>>> 289 Th-233 2 0.520E-03 >> >>> >>>>> 290 Th-234 2 0.333E-06 >> >>> >>>>> 291 Pa-230 2 0.453E-06 >> >>> >>>>> 292 Pa-231 2 0.676E-12 >> >>> >>>>> 293 Pa-232 2 0.612E-05 >> >>> >>>>> 294 Pa-233 2 0.297E-06 >> >>> >>>>> 295 Pa-234m 2 0.987E-02 >> >>> >>>>> 296 Pa-234 2 0.285E-04 >> >>> >>>>> 297 U -230 2 0.386E-06 >> >>> >>>>> 298 U -231 2 0.187E-05 >> >>> >>>>> 299 U -232 2 0.305E-09 >> >>> >>>>> 300 U -233 2 0.136E-12 >> >>> >>>>> 301 U -234 2 0.889E-13 >> >>> >>>>> 302 U -235 2 0.309E-16 >> >>> >>>>> 303 U -236 2 0.919E-15 >> >>> >>>>> 304 U -237 2 0.119E-05 >> >>> >>>>> 305 U -238 2 0.487E-17 >> >>> >>>>> 306 U -239 2 0.492E-03 >> >>> >>>>> 307 U -240 2 0.134E-04 >> >>> >>>>> 308 Np-235 2 0.196E-07 >> >>> >>>>> 309 Np-236m 2 0.170E-15 >> >>> >>>>> 310 Np-236 2 0.875E-05 >> >>> >>>>> 311 Np-237 2 0.103E-13 >> >>> >>>>> 312 Np-238 2 0.382E-05 >> >>> >>>>> 313 Np-239 2 0.341E-05 >> >>> >>>>> 314 Np-240m 2 0.158E-02 >> >>> >>>>> 315 Np-240 2 0.183E-03 >> >>> >>>>> 316 Pu-235 2 0.444E-03 >> >>> >>>>> 317 Pu-236 2 0.771E-08 >> >>> >>>>> 318 Pu-237 2 0.176E-06 >> >>> >>>>> 319 Pu-238 2 0.255E-09 >> >>> >>>>> 320 Pu-239 2 0.900E-12 >> >>> >>>>> 321 Pu-240 2 0.334E-11 >> >>> >>>>> 322 Pu-241 2 0.166E-08 >> >>> >>>>> 323 Pu-242 2 0.580E-13 >> >>> >>>>> 324 Pu-243 2 0.387E-04 >> >>> >>>>> 325 Pu-244 2 0.275E-15 >> >>> >>>>> 326 Pu-245 2 0.193E-04 >> >>> >>>>> 327 Am-240 2 0.378E-05 >> >>> >>>>> 328 Am-241 2 0.480E-10 >> >>> >>>>> 329 Am-242* 2 0.495E+02 >> >>> >>>>> 330 Am-242m 2 0.145E-09 >> >>> >>>>> 331 Am-242 2 0.120E-04 >> >>> >>>>> 332 Am-243 2 0.276E-11 >> >>> >>>>> 333 Am-244m 2 0.444E-03 >> >>> >>>>> 334 Am-244 2 0.191E-04 >> >>> >>>>> 335 Am-245 2 0.917E-04 >> >>> >>>>> 336 Cm-241 2 0.229E-06 >> >>> >>>>> 337 Cm-242 2 0.492E-07 >> >>> >>>>> 338 Cm-243 2 0.686E-09 >> >>> >>>>> 339 Cm-244 2 0.125E-08 >> >>> >>>>> 340 Cm-245 2 0.236E-11 >> >>> >>>>> 341 Cm-246 2 0.399E-11 >> >>> >>>>> 342 Cm-247 2 0.137E-14 >> >>> >>>>> 343 Cm-248 2 0.467E-13 >> >>> >>>>> 344 Cm-249 2 0.181E-03 >> >>> >>>>> 345 Cm-250 2 0.318E-11 >> >>> >>>>> 346 Bk-249 2 0.255E-07 >> >>> >>>>> 347 Bk-250 2 0.598E-04 >> >>> >>>>> 348 Cf-249 2 0.610E-10 >> >>> >>>>> 349 Cf-250 2 0.169E-08 >> >>> >>>>> 350 Cf-251 2 0.275E-10 >> >>> >>>>> 351 Cf-252 2 0.829E-08 >> >>> >>>>> 352 Cf-253 2 0.456E-06 >> >>> >>>>> 353 Cf-254 2 0.133E-06 >> >>> >>>>> 354 Es-253 2 0.392E-06 >> >>> >>>>> 355 Es-254m 2 0.491E-05 >> >>> >>>>> 356 Es-254 2 0.291E-07 >> >>> >>>>> 357 Es-255 2 0.209E-06 >> >>> >>>>> 358 C - 11 0 0.567E-03 >> >>> >>>>> 359 N - 13 0 0.116E-02 >> >>> >>>>> 360 O - 15 0 0.567E-02 >> >>> >>>>> 361 F - 18 0 0.115E-03 >> >>> >>>>> 380 Mn- 54 2 2.571E-08 >> >>> >>>>> 545 I -129e 1 0.138E-14 >> >>> >>>>> 645 I -129o 1 0.138E-14 >> >>> >>>>> 745 I -129a 1 0.138E-14 >> >>> >>>>> 547 I -130e 1 0.155E-04 >> >>> >>>>> 647 I -130o 1 0.155E-04 >> >>> >>>>> 747 I -130a 1 0.155E-04 >> >>> >>>>> 548 I -131e 1 0.994E-06 >> >>> >>>>> 648 I -131o 1 0.994E-06 >> >>> >>>>> 748 I -131a 1 0.994E-06 >> >>> >>>>> 549 I -132e 1 0.836E-04 >> >>> >>>>> 649 I -132o 1 0.836E-04 >> >>> >>>>> 749 I -132a 1 0.836E-04 >> >>> >>>>> 551 I -133e 1 0.921E-05 >> >>> >>>>> 651 I -133o 1 0.921E-05 >> >>> >>>>> 751 I -133a 1 0.921E-05 >> >>> >>>>> 553 I -134e 1 0.222E-03 >> >>> >>>>> 653 I -134o 1 0.222E-03 >> >>> >>>>> 753 I -134a 1 0.222E-03 >> >>> >>>>> 554 I -135e 1 0.288E-04 >> >>> >>>>> 654 I -135o 1 0.288E-04 >> >>> >>>>> 754 I -135a 1 0.288E-04 >> >>> >>>> >> >>> >>>>> _______________________________________________ >> >>> >>>>> CF-metadata mailing list >> >>> >>>>> CF-metadata@cgd.ucar.edu >> >>> >>>>> http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >>> >>>> >> >>> >>>> >> >>> >>>> ----- End forwarded message ----- >> >>> >>>> _______________________________________________ >> >>> >>>> CF-metadata mailing list >> >>> >>>> CF-metadata@cgd.ucar.edu >> >>> >>>> http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >>> >>>> ---------------------------------------------------------------------- >> >>> >>>> -- This message (and any attachments) is for the recipient only. >> >>> >>>> NERC >> >>> >>>> is subject to the Freedom of Information Act 2000 and the contents >> >>> >>>> of >> >>> >>>> this email and any reply you make may be disclosed by NERC unless it >> >>> >>>> is exempt from release under the Act. Any material supplied to NERC >> >>> >>>> may be stored in an electronic records management system. >> >>> >>>> ---------------------------------------------------------------------- >> >>> >>>> -- >> >>> >>>> >> >>> >>>> >> >>> >>>> _______________________________________________ >> >>> >>>> CF-metadata mailing list >> >>> >>>> CF-metadata@cgd.ucar.edu >> >>> >>>> http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >>> >>>> >> >>> >>> >> >>> >>> -- >> >>> >>> Dr. Heiko Klein Norwegian Meteorological Institute >> >>> >>> Tel. + 47 22 96 32 58 P.O. Box 43 Blindern >> >>> >>> http://www.met.no 0313 Oslo NORWAY >> >>> >>> ________________________________ >> >>> >>> This message (and any attachments) is for the recipient only. NERC >> >>> >>>is subject to the Freedom of Information Act 2000 and the contents of >> >>> >>>this email and any reply you make may be disclosed by NERC unless it >> >>> >>>is exempt from release under the Act. Any material supplied to NERC >> >>> >>>may be stored in an electronic records > management system. >> >>> >>> ________________________________ >> >>> >> >> >>> >> ----- End forwarded message ----- >> >>> >> _______________________________________________ >> >>> >> CF-metadata mailing list >> >>> >> CF-metadata@cgd.ucar.edu >> >>> >> http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >>> >> >> >>> > >> >>> > -- >> >>> > Dr. Heiko Klein Norwegian Meteorological Institute >> >>> > Tel. + 47 22 96 32 58 P.O. Box 43 Blindern >> >>> > http://www.met.no 0313 Oslo NORWAY >> >>> > _______________________________________________ >> >>> > CF-metadata mailing list >> >>> > CF-metadata@cgd.ucar.edu >> >>> > http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >>> > ------------------------------------------------------------------------ >> >>> > This message (and any attachments) is for the recipient only. NERC is >> >>> > subject to the Freedom of Information Act 2000 and the contents of this >> >>> > email and any reply you make may be disclosed by NERC unless it is >> >>> > exempt from release under the Act. Any material supplied to NERC may be >> >>> > stored in an electronic records management system. >> >>> > ------------------------------------------------------------------------ >> >>> >> >>> -- >> >>> Dr. Heiko Klein Norwegian Meteorological Institute >> >>> Tel. + 47 22 96 32 58 P.O. Box 43 Blindern >> >>> http://www.met.no 0313 Oslo NORWAY >> >> >> >> ----- End forwarded message ----- >> >> _______________________________________________ >> >> CF-metadata mailing list >> >> CF-metadata@cgd.ucar.edu >> >> http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >> ------------------------------------------------------------------------ >> >> This message (and any attachments) is for the recipient only. NERC is >> >> subject to the Freedom of Information Act 2000 and the contents of this >> >> email and any reply you make may be disclosed by NERC unless it is >> >> exempt from release under the Act. Any material supplied to NERC may be >> >> stored in an electronic records management system. >> >> ------------------------------------------------------------------------ >> >> >> >> >> >> _______________________________________________ >> >> CF-metadata mailing list >> >> CF-metadata@cgd.ucar.edu >> >> http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata >> >> >> > >> > -- >> > Dr. Heiko Klein Norwegian Meteorological Institute >> > Tel. + 47 22 96 32 58 P.O. Box 43 Blindern >> > http://www.met.no 0313 Oslo NORWAY >> > ------------------------------------------------------------------------ >> > This message (and any attachments) is for the recipient only. NERC is >> > subject to the Freedom of Information Act 2000 and the contents of this >> > email and any reply you make may be disclosed by NERC unless it is >> > exempt from release under the Act. Any material supplied to NERC may be >> > stored in an electronic records management system. >> > ------------------------------------------------------------------------ >> >> -- >> Dr. Heiko Klein Norwegian Meteorological Institute >> Tel. + 47 22 96 32 58 P.O. Box 43 Blindern >> http://www.met.no 0313 Oslo NORWAY > > > > ----- End forwarded message ----- > _______________________________________________ > CF-metadata mailing list > CF-metadata@cgd.ucar.edu > http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata > ------------------------------------------------------------------------ > This message (and any attachments) is for the recipient only. NERC is > subject to the Freedom of Information Act 2000 and the contents of this > email and any reply you make may be disclosed by NERC unless it is > exempt from release under the Act. Any material supplied to NERC may be > stored in an electronic records management system. > ------------------------------------------------------------------------ > > > _______________________________________________ > CF-metadata mailing list > CF-metadata@cgd.ucar.edu > http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata > -- Dr. Heiko Klein Norwegian Meteorological Institute Tel. + 47 22 96 32 58 P.O. Box 43 Blindern http://www.met.no 0313 Oslo NORWAY _______________________________________________ CF-metadata mailing list CF-metadata@cgd.ucar.edu http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata
