117 Neb. Admin. Code, ch. 4, § 003

Current through September 17, 2024

Section 117-4-003 - Aquatic Life

003.01 General Criteria for Aquatic Life

The following criteria apply to all aquatic life use classes.

003.01A pH (Hydrogen Ion Concentration).

Hydrogen Ion concentrations, expressed as pH, are to be maintained between 6.5 and 9.0; unless pH values outside this range are due to natural conditions.

003.01B Temperature.

The temperature of a receiving water is not to be increased by a total of more than 5°F (3°C) from natural background outside the mixing zone.

For the Missouri River, from the South Dakota-Nebraska state line near Ft. Randall Dam to Sioux City, Iowa, the maximum temperature limit is 85°F (29°C) with an allowable change of 4°F (2°C) from natural background. For cold waters, the maximum limit is 72°F (22°C) with an allowable change of 5°F (3°C) from natural background. For warm waters, the maximum limit is 90°F (32°C).

For impoundments, the temperature of the epilimnion of surface waters is not to be raised more than 3°F (2°C) above that which existed before the addition of heat of artificial origin. Unless a special study shows that the discharge of heated effluent into the hypolimnion will be desirable, such practice is not recommended and water for cooling should not be pumped from the hypolimnion to be discharged to the same body of water.

003.01C Toxic Substances.

Surface waters are to be free from toxic substances, alone or in combination with other substances, in concentrations that result in acute or chronic toxicity to aquatic life, except as specified in Chapter 2. Toxic substances are not to be present in concentrations that result in objectionable tastes or significant bioaccumulation or biomagnification in aquatic organisms which renders them unsuitable or unsafe for consumption. (In implementing these criteria, the Department will follow procedures outlined in the State's Continuing Planning Process which comply with the federal water quality standards, 40 C.F.R. § 131.11 (1987)).

003.01C1 The following numerical criteria for the protection of aquatic life and their uses (e.g., fish consumption) are not to be exceeded. Unless otherwise noted, criteria are based on total concentrations.

CRITERIA (µg/L)
POLLUTANT	Acute	Chronic	CAS No.*
Pesticides:
Acrolein	3c	3d	107-02-8
Alachlor	760c	76d	15972-60-8
Aldrin	3.0a	0.0000077b,e	309-00-2
Atrazine	330c	12d	1912-24-9
	100a	0.1b,e	608-73-1
Hexachlorocyclohexane (HCH)-Technical	(Reserved)	0.0039b,e	319-84-6
alpha-Hexachlorocyclohexane (HCH)	(Reserved)	0.14b,e	319-85-7
beta-Hexachlorocyclohexane (HCH)
Carbaryl	2.1c	2.1d	63-25-2
Chlordane	2.4a	0.0032b,e	57-74-9
Chlorpyrifos	0.083c	0.041d	2921-88-2
DCPA1	(Reserved)	14,300d	1861-32-1
p,p'-Dichlorodiphenyltrichloroethane or DDT4	1.1a	0.0003b,e	50-29-3
p,p'-Dichlorodiphenyldichloroethylene or DDT metabolite (DDE)	1050a	0.00018b,e	72-55-9
p,p'-Dichlorodiphenyldichloroethane or DDT metabolite (TDE, DDD)	0.6a	0.0012b,e	72-54-8
Demeton	(Reserved)	0.1b	8065-48-3
Diazinon	0.17c	0.17d	333-41-5
Dieldrin	0.24a	0.000012b,e	60-57-1
Dioxin2	< 0.01a	0.000000051b,e	1746-01-6
alpha-Endosulfan	0.22a	0.056b	959-98-8
beta-Endosulfan	0.22a	0.056b	33213-65-9
Endosulfan sulfate	(Reserved)	40b,f	1031-07-8
Endrin	0.086a	0.03b,f	72-20-8
Endrin aldehyde	(Reserved)	1.0b,f	7421-93-4
Guthion	(Reserved)	0.01b	86-50-0
Heptachlor	0.52a	0.000059b,e	76-44-8
Heptachlor epoxide	0.52a	0.00032b,e	1024-57-3
Isophorone	117,000a	18,000b,e	78-59-1
gamma-Hexachlorocyclohexane (HCH) or Lindane	0.95a	0.16b	58-89-9
Malathion	(Reserved)	0.1b	121-75-5
Methoxychlor	(Reserved)	0.02b,f	72-43-5
Metolachlor	390c	100d	51218-45-2
Metribuzin	(Reserved)	100d	21087-64-9
Mirex	(Reserved)	0.001d	2385-85-5
Parathion	0.065c	0.013d	56-38-2
Pentachlorophenol	e( 1.005(pH)- 4.869) c	e( 1.005(pH)- 5.134)0.4b,e	87-86-5
Propachlor	(Reserved)	8.0d	1918-16-7
Toxaphene	0.73c	0.0002d	8001-35-2
Tributyltin (TBT)	0.46c	0.072d	....
Chlorphenoxy Herbicide (2,4-D)	Reserved	12,000b,f	94-75-7
Chlorphenoxy Herbicide (2,4,5-TP) [Silvex]	Reserved	400b,f	93-72-1
Metals and Inorganics3 :
Aluminum	750c	87d	7429-90-5
Antimony	88c	30d	7440-36-0
Arsenic	340c	16.7b,e	7440-38-2
Beryllium	130a	5.3d	7440-41-7
Cadmium	(See Site-Specific or Aquatic Life Use Class Criteria)		7440-43-9
Chromium (III)	(See Site-Specific or Aquatic Life Use Class Criteria)		16065-83-1
Chromium (VI)	(See Site-Specific or Aquatic Life Use Class Criteria)		18540-29-9
Copper	( 0.960 e( 0.9422[ln hardness]- 1.700) c	(0. 960)e( 0.8545[lnhardness]- 1.702) d	7440-50-8
Cyanide	(See Site-Specific or Aquatic Life Use Class Criteria)		57-12-5
Iron	(Reserved)	1,000b	7439-89-6
Lead4	(CF) e( 1.273[lnhardness]- 1.460) c	(CF) e( 1.273[lnhardness]- 4.705) d	7439-92-1
Manganese	(Reserved)	1,000b	7439-96-5
Mercury5	1.4c	0.77d	7439-97-6
Nickel	(0. 998)e( 0.846[lnhardness]+ 2.255) c	(0. 997)e( 0.846[lnhardness]+ 0.0584) d	7440-02-0
Selenium	See 003.01C3		7782-49-2
Silver (0.	( 0.85)e( 1.72[lnhardness]- 6.59) c	(Reserved)	7440-22-4
Thallium	1400a	0.47b,f	7440-28-0
Zinc	( 0.978)e( 0.8473[lnhardness]+ 0.884) c	( 0.986) ( 0.8473[lnhardness]+ 0.884) d	7440-66-6
PCBs and Related Compounds:
PCBs	2.0a	0.00064b,e	.........
Chlorinated Naphthalenes	1,600a	43,000b,e	.........
Halogenated Aliphatics:
Halomethanes	11,000a	157b,e	.........
Bromoform	(Reserved)	1,200b,e	75-25-2
Methyl bromide	(Reserved)	10,000b,f	74-83-9
Chloroform	28,900a	1,240b	67-66-3
Carbon tetrachloride	35,200a	50b,e	56-23-5
Methylene chloride	(Reserved)	3,000b,f	75-09-2
1,2-dichloroethane	118,000a	6,500b,e	107-06-2
Hexachloroethane	980a	0.8b,f	67-72-1
Pentachloroethane	7,240a	1,100b	76-01-7
Trichlorinated ethanes	18,000a	(Reserved)	25323-89-1
1,1,1-trichloroethane	(Reserved)	200,000b,f	71-55-6
1,1,2-trichloroethane	(Reserved)	89b,e	79-00-5
Tetrachloroethanes	9,320a	(Reserved)	25322-20-7
1,1,2,2-tetrachloroethane	(Reserved)	30b,e	79-34-5
Dichloroethylenes	11,600a	(Reserved)	25323-30-3
1,1-dichloroethylene	(Reserved)	20,000b,f	75-35-4
Trans-1,2-dichloroethylene	(Reserved)	4,000b,f	156-60-5
Tetrachloroethylene	5,280a	70b,f	127-18-4
Trichloroethylene	45,000a	30b,f	79-01-6
Chlorodibromomethane	(Reserved)	210b,e	124-48-1
Dichlorobromomethane	(Reserved)	270b,e	75-27-4
Dichloropropane	23,000a	5,700b	26638-19-7
1,2-dichloropropane	(Reserved)	310b,e	78-87-5
Dichloropropene	6,060a	244b	26952-23-8
1,3-dichloropropene	(Reserved)	120b,e	542-75-6
Hexachlorobutadiene	90a	0.02b,f	87-68-3
Hexachlorocyclopentadiene	7.0a	4.0b,f	77-47-4
Vinyl Chloride	(Reserved)	16b,e	75-01-4
Ethers:
	(Reserved)	22b,e	111-44-4
Bis(2-chloroethyl) Ether	(Reserved)	4,000b,f	108-60-1
Bis(2-chloro-1-methylethyl) Ether
	(Reserved)	0.17b,e	542-88-1
Bis(chloromethyl) Ether
Chloroalkyl ethers	238,000a	(Reserved)	.........
Haloethers	360a	122b	.........
Monocyclic Aromatics except Phenols, Cresols, and Phthalates:
Benzene	5,300a	90b,f	71-43-2
Chlorinated benzenes	250a	50b	.........
Chlorobenzene	(Reserved)	800b,f	108-90-7
1,2-dichlorobenzene	(Reserved)	3,000b,f	95-50-1
1,3-dichlorobenzene	(Reserved)	10b,f	541-73-1
1,4,-dichlorobenzene	(Reserved)	900b,f	106-46-7
Ethylbenzene	32,000a	130b,f	100-41-4
Hexachlorobenzene	6.0a	0.00079b,e	118-74-1
Nitrobenzene	27,000a	600b,f	98-95-3
Pentachlorobenzene	(Reserved)	0.1b,f	608-93-5
1,2,4,5-tetrachlorobenzene	(Reserved)	0.03b,f	95-94-3
1,2,4-trichlorobenzene	(Reserved)	0.76b,e	120-82-1
Toluene	17,500a	520b,f	108-88-3
2,4-dinitrotoluene	330a	17b,e	121-14-2
Phenols and Cresols:
Phenol	10,200a	2,560b	108-95-2
2-chlorophenol	4,380a	800b,f	95-57-8
3-methyl-4-chlorophenol	30a	2,000b,f	59-50-7
2,4-dichlorophenol	2,020a	60b,f	120-83-2
2,4,5-trichlorophenol	100a	63b	95-95-4
2,4,6-trichlorophenol	(Reserved)	6b,f	88-06-2
Dinitrophenols	(Reserved)	1,000b,f	25550-58-7
Nitrophenols	230a	150b	.........
Nonylphenol	28c	6.6d	1044-05-1
2-methyl-4,6-dinitrophenol	(Reserved)	30b,f	534-52-1
2,4-dinitrophenol	(Reserved)	300b,f	51-28-5
2,4-dimethylphenol	2,120a	3,000b,f	105-67-9
Phthalate Esters:
Phthalate esters	940a	3.0b	.........
Butylbenzyl phthalate	(Reserved)	1.0b,e	85-68-7
Di-N-butyl phthalate	(Reserved)	30b,f	84-74-2
Diethyl phthalate	(Reserved)	600b,f	84-66-2
Bis(2-ethylhexyl) Phthalate	2,000a	3.7b,e	117-81-7
Dimethyl phthalate	(Reserved)	2,000b,f	131-11-3
Polycyclic Aromatic Hydrocarbons (PAHs):
Acenaphthene	1,700a	90b,f	83-32-9
Anthracene	(Reserved)	400b,f	120-12-7
Benzo(a)anthracene	(Reserved)	0.013b,e	56-55-3
Benzo(a)pyrene	(Reserved)	0.0013b,e	50-32-8
Benzo(b)fluoranthene	(Reserved)	0.013b,e	205-99-2
Benzo(k)fluoranthene	(Reserved)	0.13b,e	207-08-9
Chrysene	(Reserved)	1.3b,e	218-01-9
Dibenzo(a,h)anthracene	(Reserved)	0.0013b,e	53-70-3
Fluoranthene	3,980a	20b,f	206-44-0
Fluorene	(Reserved)	70b,f	86-73-7
Indeno(1,2,3-cd)pyrene	(Reserved)	0.013b,e	193-39-5
Naphthalene	2,300a	620b	91-20-3
2-chloronaphthalene	1,600a	1,000b,f	91-58-7
Phenanthrene	30a	6.3b	85-01-8
Pyrene	(Reserved)	30b,f	129-00-0
Nitrosamines and other Nitrogen-containing Compounds:
Nitrosamines	5,850a	12.4b,e	.........
Benzidine	2,500a	0.11b,e	92-87-5
3,3'-dichlorobenzidine	(Reserved)	1.5b,e	91-94-1
1,2-diphenylhydrazine	270a	2.0b,e	122-66-7
Acrylonitrile	7,550a	70b,e	107-13-1
N-nitrosodibutylamine	(Reserved)	2.2b,e	924-16-3
N-nitrosodiethylamine	(Reserved)	12.4b,e	55-18-5
N-nitrosodimethylamine	(Reserved)	30b,e	62-75-9
N-nitrosodiphenylamine	(Reserved)	60b,e	86-30-6
N-nitrosodi-N-propylamine	(Reserved)	5.1b,e	621-64-7
N-nitrosopyrrolidine	(Reserved)	340b,e	930-55-2

^* Chemical Abstract Services Registry Number

^a Concentration not to be exceeded at any time

^b Twenty-four hour average concentration

^c One-hour average concentration

^d Four-day average concentration

^e Human health criteria at the 10^-5 risk level for carcinogens based on the consumption of fish and other aquatic organisms

^f Human health criteria based on the consumption of fish and other aquatic organisms

¹ Dimethyl tetrachloroterephthalate

² 2,3,7,8-tetrachloro-dibenzo-p-dioxin or 2,3,7,8-TCDD

³ Criteria for metals and inorganics apply to dissolved concentrations

⁴ The conversion factor for lead (acute and chronic) is hardness dependent and defined by:

CF = 1.46203- [(ln hardness)( 0.145712)]

⁵ Chronic criterion for mercury applies to total recoverable concentrations

003.01C2 The following criteria for the protection of human health based on consumption of fish and other aquatic organisms are not to be exceeded. These criteria are expressed as fish tissue concentrations (mg/kg fish).

POLLUTANT	CRITERIA (mg/kg)	CAS No.*
Methylmercury	0.215	22967-92-6

^* Chemical Abstract Services Registry Number

003.01C3 The following Selenium criteria are for the protection of aquatic life. These criteria are expressed preferentially as fish tissue concentrations (mg/kg fish), followed by water column concentrations (mg/L) in the absence of fish tissue information.

POLLUTANT			CAS No.*
Selenium			7782-49-2
	FISH TISSUE1 CRITERIA		WATER COLUMN4 CRITERIA
Criterion Element	Egg/Ovary2	Fish Whole Body or Muscle3	Thirty-day average	Intermittent Exposure5
Magnitude	15.1 mg/kg	8.5 mg/kg whole body or 11.3 mg/kg muscle	1.5 µg/L in lakes and reservoirs 3.1 µg/L in streams and rivers	WOCint = WQC30-day - Cbkgrnd(1-fint)fint
Duration	Instantaneous measurement6	Instantaneous measurement6	30 days	Number of days/month with an elevated concentration
Frequency	Not to be exceeded	Not to be exceeded	Not more than once in three years on average	Not more than once in three years on average

^1. Fish tissue elements are expressed as steady-state.

^2. Egg/Ovary supersedes any whole-body, muscle, or water column element when fish egg/ovary concentrations are measured.

^3. Fish whole-body or muscle tissue supersedes water column element when both fish tissue and water column concentrations are measured.

^4. Water column values are based on dissolved total selenium in water and are derived from fish tissue values via bioaccumulation modeling. Water column values are the applicable criterion element in the absence of steady-state condition fish tissue data.

^5. Where WQC30-day is the water column monthly element, for either a lake or stream; Cbkgrnd is the average background selenium concentration, and fint is the fraction of any 30-day period during which elevated selenium concentrations occur, with fint assigned a value >= 0.033 (corresponding to 1 day).

^6. Fish tissue data provide instantaneous point measurements that reflect integrative accumulation of selenium over time and space in fish populations at a given site.

^* Chemical Abstract Services Registry Number

003.01D Petroleum Oil.

Not to exceed 10 mg/L.

003.01E Total Dissolved Gases.

Not to exceed 110 percent of the saturation value for gases at the existing atmospheric and hydrostatic pressures.

003.01F Hydrogen Sulfide.

Not to exceed 0.002 mg/L as undissociated hydrogen sulfide.

003.01G Chloride.

Not to exceed 860 mg/L at any time or a four-day average concentration of 230 mg/L except as specified in 003.02B2 (Site-specific criteria).

003.01H Alkalinity

No less than 20 mg/L as CaCO₃ except where natural background is less.

003.01I Residual Chlorine.

003.01I1 One-hour average concentration not to exceed 19 µg/L.

003.01I2 Four-day average concentration not to exceed 11 µg/L.

003.01J Biological Criteria.

Any human activity causing water pollution which would significantly degrade the biological integrity of a body of water or significantly impact or displace an identified "key species" will not be allowed except as specified in Chapter 2.

003.01J1 Key Species.

Key species are identified endangered, threatened, sensitive, or recreationally-important aquatic species. Key species are designated by stream segment (Chapter 5).

003.02 Site-Specific Criteria for Aquatic Life.

003.02A Procedures for Developing Site-specific Water Quality Criteria.

The water quality criteria in Chapter 4 may not always reflect the toxicity of a chemical in a specific water body. These criteria also represent only a limited number of the natural and manmade chemicals that exist in the environment which may pose a threat to aquatic life. Thus, it may be necessary in some water bodies to develop new water quality criteria or modify existing criteria through site-specific analyses in order to more accurately protect the resident species.

003.02A1 The following are acceptable conditions for developing site-specific criteria.

003.02A1a Resident species of a water body are more or less sensitive than those species used to develop a water quality criterion.

003.02A1a(1) Natural adaptive processes have enabled a viable, balanced aquatic community to exist in waters where natural background levels of a chemical exceed the criterion (e.g., resident species have evolved a genetically-based greater resistance to high concentrations of a chemical).

003.02A1a(2) The composition of aquatic species in a water body is different from those used in deriving a criterion (e.g., most of the species considered among the most sensitive, such as salmonids or the cladoceran, Daphnia magna, which were used in developing a criterion, are absent from a water body).

003.02A1b Biological availability and/or toxicity of a chemical may be altered due to differences between the physical and/or chemical characteristics of the water in a water body and the laboratory water used in developing a criterion (e.g., alkalinity, hardness, pH, salinity, suspended solids, turbidity, water temperature).

003.02A1b(1) The effect of seasonality on the physical and/or chemical characteristics of a water body and subsequent effects on biological availability and/or toxicity of a chemical may justify seasonally dependent site-specific criteria.

003.02A2 To insure that the approach to be used in developing site-specific criteria is acceptable, the Department should be involved early in the planning of any site-specific analyses so that an agreement can be reached concerning the availability of existing data, additional data needs, methods to be used in generating new data, testing procedures to be used, schedules to be followed, and quality control and assurance provisions to be used. It is particularly important to involve the Department in the planning of site-specific analyses if a party other than the Department will be conducting the data generation and testing.

003.02A3 Site-specific criteria are to protect all life stages of resident species year-round (or seasonally for seasonally dependent criteria) and prevent acute and chronic toxicity in all parts of a water body. If site-specific criteria are seasonally dependent, the period when the criteria apply is to be clearly identified.

003.02A4 Site-specific criteria are to include both chronic and acute concentrations to better reflect the different tolerances of resident species to the inherent variability between concentrations and toxicological characteristics of a chemical.

003.02A5 Site-specific criteria are to be clearly identified as maximum "not to be exceeded" or average values, and if an average, the averaging period. The conditions, if any, when the criteria apply are to be clearly stated (e.g., specific levels of hardness, pH, or water temperature). Specific sampling requirements (e.g., location, frequency), if any, are to also be identified.

003.02A6 The following are acceptable procedures for developing site-specific criteria.

003.02A6a Site-specific analyses for the development of new water quality criteria are to be conducted in a manner which is scientifically justifiable and consistent with the assumptions and rationale in Guidelines for Deriving Numerical National Water Quality Criteria for the Protection of Aquatic Organisms and their Uses, EPA, 1985.

003.02A6b Site-specific analyses for the modification of existing water quality criteria are to be conducted in accordance with one of the following procedures. These procedures are described in Water Quality Standards Handbook, EPA, December 1983.

003.02A6b(1) Recalculation procedure. This procedure is used to account for differences in sensitivity to a chemical between resident species and those species used in deriving the criterion. Bioassays in laboratory water may be required for untested resident species. Adaptation of numerical toxics criteria to site-specific conditions is explained in Recalculation of State Toxic Criteria, EPA, November 1983.

003.02A6b(2) Indicator species procedure. This procedure is used to account for differences in biological availability and/or toxicity of a chemical between the physical and/or chemical characteristics of the water in a water body and the laboratory water used in developing the criterion. Bioassays in site water using resident species or acceptable nonresident species are required. Reconditioned laboratory water simulating site-specific water quality conditions is an acceptable substitute for site water.

003.02A6b(3) Resident species procedure. This procedure is used to account for differences in both resident species sensitivity and biological availability and/or toxicity of a chemical. Bioassays in site water using resident species are required. Reconditioned laboratory water simulating site-specific water quality conditions is an acceptable substitute for site water.

003.02A6b(4) Other scientifically defensible procedures such as relevant aquatic field studies, laboratory tests, or available scientific literature.

003.02A6b(4)(a) Deviations from EPA procedures are to have justifications which are adequately documented and based on sound scientific rationale.

003.02A6b(4)(b) The data, testing procedures, and application (safety) factors used to develop site-specific criteria are to reflect the nature of the chemical (e.g., persistency, bioaccumulation potential, and avoidance or attraction responses in fish) and the most sensitive resident species of a water body.

003.02A7 A site may be limited to the specific area affected by a point or nonpoint source of pollution; or, if water quality effects on toxicity are not a consideration, the site may be as large as a general biogeographical area permits (e.g., ecoregion, river basin, subbasin). For a number of different water bodies to be designated as one site, their respective aquatic communities cannot vary substantially in sensitivity to a chemical.

003.02B Site-Specific Water Quality Criteria.

003.02B1 Lake Ogallala (Keith County).

003.02B1a Dissolved Oxygen.

The following criteria apply from July 1 through October 15 as specified below. When the Kingsley Hydropower Plant is in operation (generating electricity), these criteria are based on water temperature measurements taken continuously and averaged every hour in the power house of the Kingsley Hydropower Plant and on dissolved oxygen measurements taken continuously and averaged every 10 minutes from Lake Ogallala at the midpoint of the buoy line (1987 location at the outer edge of the stilling basin) at a one meter depth. For purposes of calculating seven-day mean, seven-day mean minimum, and thirty-day mean values at the buoy line, seven-day and thirty-day calculation periods are to be based on a sequence of days not to include any day in which the Kingsley Hydropower Plant is not in operation. The following criteria may also be based on temperature and dissolved oxygen measurements taken from Lake Ogallala at any location except the metalimnion and hypolimnion when the lake exhibits thermal stratification.

003.02B1a(1) When daily mean water temperatures are 18°C or less the following criteria apply:

00 3.02B1a(1)(a) One-day minimum of not less than 3.0 mg/L.

003.02B1a(1)(b) Daily mean of not less than 4.0 mg/L and no more than 20 percent of the one-day mean values less than 4.2 mg/L.

003.02B1a(1)(c) Seven-day mean of not less than 4.3 mg/L.

003.02B1a(2) When daily mean water temperatures exceed 18°C for four consecutive days of operation, the following criteria apply for as long as daily mean water temperatures continue to exceed 18°C. These criteria take effect on the fifth day of daily mean water temperatures exceeding 18°C.

003.02B1a(2)(a) One-day minimum of not less than 4.0 mg/L.

003.02B1a(2)(b) Daily mean of not less than 5.0 mg/L.

003.02B1a(3) When daily mean water temperatures exceed 18°C for fifteen consecutive days of operation, or when daily mean water temperatures exceed 20°C the dissolved oxygen criteria for Class B - Coldwater Aquatic Life (Chapter 4, 003.03B1) apply as long as daily mean water temperatures continue to exceed 18°C. These criteria take effect on the sixteenth day of daily mean water temperatures exceeding 18°C or on the first day after daily mean water temperatures exceed 20°C.

003.02B1a(4) In implementing paragraphs 003.02B1a(2) and 003.02B1a(3), if an interruption in the operation of Kingsley Hydropower Plant exceeding 24 hours occurs during the count of days leading to a change in criteria, the count of days will be suspended until the plant is back in operation. The first new day of operation is to be counted as the next consecutive day in the original count of days.

003.02B1b Dissolved oxygen criteria for Class B - Coldwater Aquatic Life (Chapter 4, 003.03B1) apply during the period of October 16 through June 30.

003.02B2 Salt Creek - Beal Slough to Platte River (segments LP 2-10000 and LP 2-20000), Rock Creek (segments LP 2-11000, LP 2-11100, and LP 2-11200, North Fork Rock Creek (segment LP 2-11010), Ash Hollow Creek (segment LP 2-11110), Little Rock Creek (segment LP 2-11120), Jordan Creek (segment LP 2-20100), Little Salt Creek (segment LP 2-20300), Oak Creek - Elk Creek to Salt Creek (segment LP 2-20500), Antelope Creek (segment LP 2-20900), Middle Creek - South Branch Middle Creek to Salt Creek (segment LP 2-21000), Haines Branch -Holmes Creek to Salt Creek (segment LP 2-21200), Holmes Creek (segment LP 2-21210), and Oak Lake (lake LP2-L0060). All waterbodies are within the Lower Platte River Basin.

003.02B2a Chloride.

Because these segments have high natural background concentrations of chloride and aquatic life has adapted to these conditions, criteria will be based on natural background values.

003.03 Coldwater Aquatic Life Use Class Specific Criteria.

These are waters which provide, or could provide, a habitat consisting of sufficient water volume or flow, water quality, and other characteristics such as substrate composition which are capable of maintaining year-round populations of coldwater biota. Coldwater biota are considered to be life forms in waters where temperatures seldom exceed 25°C (77°F).

003.03A Total Ammonia (as nitrogen).

003.03A1 One-hour average concentration in mg/L not to exceed the numerical value given by

Click here to view image

where Temp is °C

003.03A1a The following table shows one-hour average criteria for total ammonia at various temperatures and pHs.

ONE-HOUR AVERAGE CRITERIA FOR TOTAL AMMONIA (mg/L) Coldwater Aquatic Life Use Classes

pH
	6.6	6.8	7.0	7.2	7.4	7.6	7.8	8.0	8.2	8.4	8.6	8.8	9.0
0.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
2.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
4.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
6.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
8.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
10.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
12.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
14.0	31.28	28.05	24.10	19.73	15.34	11.37	8.11	5.62	3.83	2.59	1.77	1.23	0.88
16.0	30.30	27.17	23.35	19.11	14.86	11.02	7.85	5.44	3.71	2.51	1.72	1.19	0.86
18.0	25.67	23.02	19.78	16.19	12.59	9.34	6.65	4.61	3.14	2.13	1.45	1.01	0.73
20.0	21.75	19.50	16.76	13.72	10.67	7.91	5.64	3.90	2.66	1.80	1.23	0.86	0.62
22.0	18.43	16.52	14.20	11.62	9.04	6.70	4.78	3.31	2.25	1.53	1.04	0.73	0.52
24.0	15.61	14.00	12.03	9.85	7.66	5.68	4.05	2.80	1.91	1.29	0.88	0.62	0.44
26.0	13.23	11.86	10.19	8.34	6.49	4.81	3.43	2.37	1.62	1.10	0.75	0.52	0.37
28.0	11.21	10.05	8.64	7.07	5.50	4.08	2.90	2.01	1.37	0.93	0.63	0.44	0.32
30.0	9.50	8.51	7.32	5.99	4.66	3.45	2.46	1.70	1.16	0.79	0.54	0.37	0.27

003.03A2 Thirty-day average concentration in mg/L not to exceed the numerical value given by

Click here to view image

where Temp is °C

003.03A2a The highest four-day average concentration within a thirty-day period is not to exceed 2.5 times the thirty-day criterion.

003.03A2b The following table shows thirty-day average criteria for total ammonia at various temperatures and pHs.

THIRTY-DAY AVERAGE CRITERIA FOR TOTAL AMMONIA (mg/L)

Coldwater Aquatic Life Use Class

pH
	6.6	6.8	7.0	7.2	7.4	7.6	7.8	8.0	8.2	8.4	8.6	8.8	9.0
0.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
2.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
4.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
6.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
8.0	4.54	4.36	4.09	3.73	3.28	2.75	2.20	1.68	1.24	0.89	0.64	0.46	0.34
10.0	3.99	3.83	3.60	3.28	2.88	2.42	1.94	1.48	1.09	0.78	0.56	0.40	0.30
12.0	3.51	3.37	3.16	2.88	2.53	2.13	1.70	1.30	0.96	0.69	0.49	0.35	0.26
14.0	3.09	2.96	2.78	2.53	2.23	1.87	1.50	1.14	0.84	0.61	0.43	0.31	0.23
16.0	2.71	2.60	2.44	2.23	1.96	1.64	1.32	1.01	0.74	0.53	0.38	0.27	0.20
18.0	2.38	2.29	2.15	1.96	1.72	1.44	1.16	0.88	0.65	0.47	0.33	0.24	0.18
20.0	2.10	2.01	1.89	1.72	1.51	1.27	1.02	0.78	0.57	0.41	0.29	0.21	0.16
22.0	1.84	1.77	1.66	1.51	1.33	1.12	0.89	0.68	0.50	0.36	0.26	0.19	0.14
24.0	1.62	1.55	1.46	1.33	1.17	0.98	0.79	0.60	0.44	0.32	0.23	0.16	0.12
26.0	1.42	1.37	1.28	1.17	1.03	0.86	0.69	0.53	0.39	0.28	0.20	0.14	0.11
28.0	1.25	1.20	1.13	1.03	0.90	0.76	0.61	0.46	0.34	0.25	0.18	0.13	0.09
30.0	1.10	1.05	0.99	0.90	0.79	0.67	0.53	0.41	0.30	0.22	0.15	0.11	0.08

003.03B Toxic Substances.

003.03B1 The following numerical criteria are not to be exceeded.

POLLUTANT	CRITERIA (µg/L)
	Acute	Chronic
Metals and Inorganics1:
Cadmium2	(ACF) ( 0.9789[lnhardness]- 3.866) a	(CCF) e( 0.7977[lnhardness]- 3.909)b
Chromium (III)	( 0.316) ( 0.819[lnhardness]+ 3.7256) a	(CCF) ehardness]+ 0.6848) b
Chromium (VI)	16a	11b
Cyanide	22a	5.2b

^a One-hour average concentration

^b Four-day average concentration

¹ Criteria for metals and inorganics apply to dissolved concentrations

² The conversion factors for cadmium are hardness dependent and defined by:

ACF = 1.136672-[ln hardness( 0.041838)]

CCF = 1.101672-[ln hardness( 0.041838)]

003.03C Class A - Coldwater.

These waters provide a habitat which supports natural reproduction of a salmonid (trout) population. These waters also are capable of maintaining year-round populations of a variety of other coldwater fish and associated vertebrate and invertebrate organisms and plants.

003.03C1 Dissolved Oxygen.

003.03C1a One-day minimum of not less than 8.0 mg/L for salmonid early-life stages. This criterion applies from October 1 through May 31.

003.03C1b One-day minimum of not less than 4.0 mg/L for all life stages other than salmonid early-life stages. This criterion applies from June 1 through September 30.

003.03C1c Seven-day mean minimum of not less than 5.0 mg/L. This criterion applies from June 1 through September 30.

003.03C1d Seven-day mean of not less than 9.5 mg/L for salmonid early-life stages. This criterion applies from October 1 through May 31.

003.03C1e Thirty-day mean of not less than 6.5 mg/L. This criterion applies from June 1 through September 30.

003.03D Class B - Coldwater.

These are waters which provide, or could provide, a habitat capable of maintaining year-round populations of a variety of coldwater fish and associated vertebrate and invertebrate organisms and plants or which support the seasonal migration of salmonids. These waters do not support natural reproduction of salmonid populations due to limitations of flow, substrate composition, or other habitat conditions, but salmonid populations may be maintained year-round if periodically stocked.

003.03D1 Dissolved Oxygen.

003.03D1a One-day minimum of not less than 5.0 mg/L for coldwater fish early-life stages. This criterion applies from April 1 through June 30.

003.03D1b One-day minimum of not less than 4.0 mg/L for all life stages other than coldwater fish early-life stages. This criterion applies from July 1 through March 31.

003.03D1c Seven-day mean minimum of not less than 5.0 mg/L. This criterion applies from July 1 through March 31.

003.03D1d Seven-day mean of not less than 6.5 mg/L for coldwater fish early-life stages. This criterion applies from April 1 through June 30.

003.03D1e Thirty-day mean of not less than 6.5 mg/L. This criterion applies from July 1 through March 31.

003.04 Warmwater Aquatic Life Use Class Specific Criteria.

These are waters which provide, or could provide, a habitat consisting of sufficient water volume or flow, water quality, and other characteristics such as substrate composition which are capable of maintaining year-round populations of warmwater biota. Warmwater biota are considered to be life forms in waters where temperatures frequently exceed 25°C (77°F).

003.04A Total Ammonia (as nitrogen).

003.04A1 One-hour average concentration in mg/L not to exceed the numerical value given by

Click here to view image

where Temp is °C

003.04A1a The following table shows one-hour average criteria for total ammonia at various temperatures and pHs.

ONE-HOUR AVERAGE CRITERIA FOR TOTAL AMMONIA (mg/L)

Warmwater Aquatic Life Use Classes

pH
	6.6	6.8	7.0	7.2	7.4	7.6	7.8	8.0	8.2	8.4	8.6	8.8	9.0
0.0	48.86	43.80	37.65	30.81	23.96	17.77	12.66	8.77	5.97	4.05	2.77	1.92	1.38
2.0	48.86	43.80	37.65	30.81	23.96	17.77	12.66	8.77	5.97	4.05	2.77	1.92	1.38
4.0	48.86	43.80	37.65	30.81	23.96	17.77	12.66	8.77	5.97	4.05	2.77	1.92	1.38
6.0	48.86	43.80	37.65	30.81	23.96	17.77	12.66	8.77	5.97	4.05	2.77	1.92	1.38
8.0	48.86	43.80	37.65	30.81	23.96	17.77	12.66	8.77	5.97	4.05	2.77	1.92	1.38
10.0	48.86	43.80	37.65	30.81	23.96	17.77	12.66	8.77	5.97	4.05	2.77	1.92	1.38
12.0	42.22	37.85	32.53	26.62	20.70	15.35	10.94	7.58	5.16	3.50	2.39	1.66	1.19
14.0	35.77	32.07	27.56	22.56	17.54	13.01	9.27	6.42	4.37	2.97	2.02	1.41	1.01
16.0	30.30	27.17	23.35	19.11	14.86	11.02	7.85	5.44	3.71	2.51	1.72	1.19	0.86
18.0	25.67	23.02	19.78	16.19	12.59	9.34	6.65	4.61	3.14	2.13	1.45	1.01	0.73
20.0	21.75	19.50	16.76	13.72	10.67	7.91	5.64	3.90	2.66	1.80	1.23	0.86	0.62
22.0	18.43	16.52	14.20	11.62	9.04	6.70	4.78	3.31	2.25	1.53	1.04	0.73	0.52
24.0	15.61	14.00	12.03	9.85	7.66	5.68	4.05	2.80	1.91	1.29	0.88	0.62	0.44
26.0	13.23	11.86	10.19	8.34	6.49	4.81	3.43	2.37	1.62	1.10	0.75	0.52	0.37
28.0	11.21	10.05	8.64	7.07	5.50	4.08	2.90	2.01	1.37	0.93	0.63	0.44	0.32
30.0	9.50	8.51	7.32	5.99	4.66	3.45	2.46	1.70	1.16	0.79	0.54	0.37	0.27

003.04A2 Thirty-day average concentration in mg/L not to exceed the numerical value given by

Click here to view image

where Temp is °C

003.04A2a The highest four-day average concentration within a thirty-day period is not to exceed 2.5 times the thirty-day criterion.

003.04A2b The following table shows thirty-day average criteria for total ammonia at various temperatures and pHs.

THIRTY-DAY AVERAGE CRITERIA FOR TOTAL AMMONIA (mg/L)

Warmwater Aquatic Life Use Classes

pH
	6.6	6.8	7.0	7.2	7.4	7.6	7.8	8.0	8.2	8.4	8.6	8.8	9.0
0.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
2.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
4.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
6.0	4.85	4.65	4.36	3.98	3.49	2.94	2.35	1.80	1.32	0.95	0.68	0.49	0.36
8.0	4.54	4.36	4.09	3.73	3.28	2.75	2.20	1.68	1.24	0.89	0.64	0.46	0.34
10.0	3.99	3.83	3.60	3.28	2.88	2.42	1.94	1.48	1.09	0.78	0.56	0.40	0.30
12.0	3.51	3.37	3.16	2.88	2.53	2.13	1.70	1.30	0.96	0.69	0.49	0.35	0.26
14.0	3.09	2.96	2.78	2.53	2.23	1.87	1.50	1.14	0.84	0.61	0.43	0.31	0.23
16.0	2.71	2.60	2.44	2.23	1.96	1.64	1.32	1.01	0.74	0.53	0.38	0.27	0.20
18.0	2.38	2.29	2.15	1.96	1.72	1.44	1.16	0.88	0.65	0.47	0.33	0.24	0.18
20.0	2.10	2.01	1.89	1.72	1.51	1.27	1.02	0.78	0.57	0.41	0.29	0.21	0.16
22.0	1.84	1.77	1.66	1.51	1.33	1.12	0.89	0.68	0.50	0.36	0.26	0.19	0.14
24.0	1.62	1.55	1.46	1.33	1.17	0.98	0.79	0.60	0.44	0.32	0.23	0.16	0.12
26.0	1.42	1.37	1.28	1.17	1.03	0.86	0.69	0.53	0.39	0.28	0.20	0.14	0.11
28.0	1.25	1.20	1.13	1.03	0.90	0.76	0.61	0.46	0.34	0.25	0.18	0.13	0.09
30.0	1.10	1.05	0.99	0.90	0.79	0.67	0.53	0.41	0.30	0.22	0.15	0.11	0.08

003.04B Toxic Substances.

003.04B1 The following numerical criteria are not to be exceeded.

POLLUTANT	CRITERIA (µg/L)
	Acute	Chronic
Metals and Inorganics1:
Cadmium2	(ACF) e ( 0.9789[lnhardness]- 3.421) a	(CCF) e( 0.7977[lnhardness]- 3.909) b
Chromium (III)	(CCF) e ( 0.819[lnhardness]+ 3.764) a	(CCF) e( 0.819[lnhardness]+ 0.724) b
Chromium (VI)	16a	11b
Cyanide	41.3a	9.8b

^a One-hour average concentration

^b Four-day average concentration

¹ Criteria for metals and inorganics apply to dissolved concentrations

² The conversion factors for cadmium are hardness dependent and defined by:

ACF = 1.136672-[ln hardness ( 0.041838)]

CCF = 1.101672-[ln hardness ( 0.041838)]

003.04C Class A - Warmwater.

These waters provide, or could provide, a habitat suitable for maintaining one or more identified key species on a year-round basis. These waters also are capable of maintaining year-round populations of a variety of other warmwater fish and associated vertebrate and invertebrate organisms and plants.

003.04C1 Dissolved Oxygen.

003.04C1a One-day minimum of not less than 5.0 mg/L for early-life stages. This criterion applies from April 1 through September 30.

00 3.04C1b One-day minimum of not less than 3.0 mg/L for all life stages other than early-life stages. This criterion applies from October 1 through March 31.

003.04C1c Seven-day mean minimum of not less than 4.0 mg/L. This criterion applies from October 1 through March 31.

003.04C1d Seven-day mean of not less than 6.0 mg/L for early-life stages. This criterion applies from April 1 through September 30.

003.04C1e Thirty-day mean of not less than 5.5 mg/L. This criterion applies from October 1 through March 31.

003.04D Class B - Warmwater.

These are waters where the variety of warmwater biota is presently limited by water volume or flow, water quality (natural or irretrievable human-induced conditions), substrate composition, or other habitat conditions. These waters are only capable of maintaining year-round populations of tolerant warmwater fish and associated vertebrate and invertebrate organisms and plants. Key species may be supported on a seasonal or intermittent basis (e.g., during high flows) but year-round populations cannot be maintained.

003.04D1 Dissolved Oxygen.

003.04D1a One-day minimum of not less than 5.0 mg/L for early-life stages. This criterion applies from April 1 through September 30.

00 3.04D1b One-day minimum of not less than 3.0 mg/L for all life stages other than early-life stages. This criterion applies from October 1 through March 31.

003.04D1c Seven-day mean minimum of not less than 4.0 mg/L. This criterion applies from October 1 through March 31.

003.04D1d Seven-day mean of not less than 6.0 mg/L for early-life stages. This criterion applies from April 1 through September 30.

003.04D1e Thirty-day mean of not less than 5.5 mg/L. This criterion applies from October 1 through March 31.

003.05 Nutrient Criteria for Lakes and Impounded Waters.

The following criteria associated with various nutrient classifications apply to lakes or impounded waters according to codes listed in Chapter 6. Criteria are based on seasonal averages from April 1 through September 30. Eastern Lakes and Impounded Waters are located within the Big Blue, Little Blue, Elkhorn, Lower Platte, Missouri Tributaries, and Nemaha River Basins. Western Lakes and Impounded Waters are located within the Loup, Middle Platte, Niobrara, North Platte, Republican, South Platte, and White River-Hat Creek Basins. Natural Sandhill Lakes are not subject to these criteria as they exist in a relatively undisturbed condition.

Chlorophyll a represents the desired biological condition (response) and is generally influenced by the amount of phosphorus and nitrogen (cause). Thus, if the chlorophyll a criterion is met, total phosphorus or total nitrogen values above the listed values will not be considered to violate their respective criteria.

Lake or Impounded Classification	Waters Codes	Total Phosphorus (µg/L)	Total Nitrogen (µg/L)	Chlorophyll a (µg/L)
Eastern Lakes and Impounded Waters:	E	50	1000	10
Western Lakes and Impounded Waters:	W	40	800	8
Natural Sandhill Lakes:	SH	---	---	---

117 Neb. Admin. Code, ch. 4, § 003

Amended effective 6/24/2019