By Roger Rowswell with contributions by Mike Palmer, Jim Cambray and Pat Irwin

Recently I received a copy of an edict/notice put out by the PE Met Office indicating that a 100-year flood was on the cards in the near future. This is an event I have anticipated occurring for a while but had not fully investigated the probability. There are promising signs that the drought will soon be over.

Weather is cyclical and I was aware that serious flooding had occurred in the past in the early part of the 19th century. A big flood was reported on early in the 1800s by George Barker while at the Theopolis Mission from 1815 to 1839, near today’s Southwell: In October, 1823 heavy rain persisted for 10 days flooding the countryside and was referred to as the “Flood of 1823”. Although hard and fast figures are not provided, it is evident from the written account and damage caused that it was a substantial flood. (See Addendum)

Currently Makhanda and large parts of the south-western areas of the Eastern Cape are in the grips of a severe drought. Droughts are often succeeded by flood events. The above has prompted this investigation.

The annual rainfall for 2019 was the lowest recorded by three stations in Makhanda with records of 27 years and longer and one station outside the municipal boundary to the west.

Table 1. Grahamstown experienced its lowest annual rainfall for a number of years in 2019

(LTA is the long term average. LT Med is the long term median.)

Grahamstown LTA (Period) 2019 % of LTA LT Med (Period) 2019 % of  LT Median
4A Darling St 725.9mm (34yrs) 411.3mm 56.6 695.7mm (34yrs) 411.3 59.1
Park Rd 688.9mm (34yrs) 465.3mm 67.5 663.2mm (34yrs) 465.3 70.2
Cartwright Ave 585.2mm (28yrs) 371mm 63.4 592.5mm (28yrs) 371mm 74.2
Strowan Farm 510mm (105yrs) 323mm 63.3 323mm

 

The amount of rainfall at a specific station depends notably on topography and wind direction, rainfall is normally higher on the western and southern sides, however the northern areas periodically get higher rainfall than the southern areas during thunder storms (convectional rainfall) passing to the north of town.

 

Table 2. List of previous rainfall lows (mm) from highest to lowest since 1986

Year Darling St Park Rd Cartwright Ave Strowan
1998 594.1 653.7 675 550
1999 560.4 510.3 389 367
1990 557.1 554.1 394
2018 551.8 566.4 483 448
2016 535.2 512.7 435 347
1991 533.9 588.9 378
1987 511.0 513.7 383
1992 501.5 486.9 365 324
2019 411.3 465.8 371 323

 

Table 3. A comparison of low rainfall over three stations in Grahamstown

Annual Rainfall lows – descending order
Darling St Park Rd Cartwright Ave
Year (mm) Year (mm) Year (mm)
1998

1999

1990

2018

2016

1991

1987

1992

2019

594.1

560.4

557.1

551.8

535.2

533.9

511.0

501.5

411.3

1998

1991

2018

1990

1987

2016

1999

1992

2019

 

653.7

588.9

566.4

554.1

513.7

512.7

510.3

486.9

465.8

2009

2018

2016

2003

2007

2008

1999

2019

1992

498

483

435

431

427

418

389

371

365

 

In Table 3 above it can be seen that in the last 4 years Grahamstown has recorded three of the lowest rainfalls in 34 years, this is typical of drought periods, see early 1900 data on Figure 1.

 

Table 4. Highest annual rainfalls (mm)

Year Darling St Park Rd Cartwright Ave Strowan
2006 1161.8 940.0 771 772
2011 1151.6 1044.9 803 950
2002 1017.5 950.3 750 701

 

The earliest record of floods in the Albany District is from Rev. George Barker: ‘The Journal of George Barker at the old Theopolis Mission Station’, near Southwell, in the early 1815-1839 period: “1823 Oct; Heavy rain for 10 days from Sunday Oct 5th – The Flood of 1823”.

The earliest rainfall records in Grahamstown are from the old gaols, it was first in High Street 1879 to 1923 (currently the Auction House), then in 1824 it was moved to Somerset Street – Old Gaol – until 1974. It was then moved to Waainek. The two old gaol sites are so close to one another, within 50 to 100m of each other, that they can be considered as one record.

The Waainek records are not particularly relevant to rainfall in Grahamstown as the “Tronk” (TNK) as it is described by SAWS (South African Weather Services), is in the mist belt at the top of Howison’s Poort. In the table below one can see a similarity between those of the Old Gaol in the early 1900s and those of Darling Street in the early 2000s relative to their respective long term averages: Old Gaol (684.5mm) and Darling St (725.9mm) are similar. It should be mentioned that the Darling Street records (34 yrs) include the period of very high rainfall (Table 4) 2002 to 2011, whereas the Old Gaol records (95 yrs) included a large portion of very dry years. It is also very interesting to note that there were two wet years in 1886 and 1891 recording 1080.0mm and 1022.4mm respectively i.e. a rainfall peak. Similar to the peaks recorded in 2006 and 2011 (Table 4).

 

Table 5. A comparison of rainfall in the early 1900s and early 2000s

Old Gaol Darling Street Comments
Year Rainfall

(mm)

Year Rainfall

(mm)

1915

1916

1917

1918

1919

1920

1921

1922

1923

 

623.6

477.2

816.6

588.4

444.0

491.3

807.1

998.3

621.8

2015

2016

2017

2018

2019

2020

2021

2022

2023

823.2

535.2

696.5

551.8

411.3

?

R L Mullins – Serious drought 1914 to 1916

 

 

 

Very dry at both stations for respective periods

 

 

(124.4mm, June), (106.7mm, July) and (307.7mm, Nov)

(130.8mm, Jan)

 

Two old sets of rainfall records, from the early 1900s onwards exist: one from the Old Gaol in Grahamstown. At the time of the records referred to below it was situated near the top end of High Street, 1879 to 1923, and then in Somerset Street from 1924 until 1974 after which it was moved to the present site at Waainek. The second set is at Strowan Farm on the north-west side of Grahamstown, the record spans the period 1915 to present. Although the latter’s rainfall is not representative of that falling in Grahamstown the trend still follows the same pattern.

 

Table 6

Year Old Gaol Strowan
LTA 684.5mm (95yrs) LTA 512.6mm (101yrs)
1915

1916

1917

1918

1919

1920

1921

1922

1923

623.6mm

477.2mm

816.6mm

588.4mm

444.0mm

491.3mm

807.1mm

998.3mm

621.8mm

401mm

499mm

680mm

425mm

375mm

315mm

559mm

825mm

445mm

Of the 998.3mm falling in 1922 (Table 6) 304mm fell in a period of six days, Friday 3rd Nov to Wed 8th Nov, as shown in Table 7 below. This was referred to as “A Great Storm – The Heavy Deluge”: Grocott’s Daily Mail, Monday 6th November, 1922.

 

Table 7. Rainfall measured at different stations in and around Grahamstown in Nov, 1922.

Where Sat 4 Nov Mon 6 Nov Tue 7 Nov Wed 8 Nov Totals
City Hall

Gowie’s Kloof

Vet Lab

Slaaikraal

28.2mm

27.9mm

25.2mm

211.6mm

188.5mm

190.8mm

152.4mm

49.3mm

45.0mm

69.1mm

25.4mm

15.2mm

13.5mm

20.8mm

304.3mm

274.9mm

305.9mm

177.8mm

 

The City Hall was where it is today in Church Square, Gowie’s Kloof was in the vicinity of today’s Gowie Dam and Graeme College, Vet Lab is the Veterinary Laboratories at the top of George Street and Slaaikraal is either the Farm Slaaikraal just beyond Strowan or at the Jameson and Milner Dams commonly called the Slaaikraal dams.

Figure 1. A comparison of annual rainfall trends in early 1900s and 2000s

 

 

 

 

 

 

 

Looking at both record sets, Table 6 and Figure 1 above, it is evident that Grahamstown experienced significant rainfall and potentially floods in 1922 and this was preceded by several years of drought at both localities (R L Mullins). At the old gaol in High St significant rainfall was recorded in 1922  for June (124.4mm), July (106.7mm) and November (307.7mm) and was followed up by 130.8mm in January 1923. At Strowan Farm, ±6km west of Grahamstown centre, the following were recorded: 1922; June (116mm), July (86mm) and November (264mm) and in January 1923 (93mm). The average annual difference between Old Gaol and Strowan Farm is in the region of 150 to 175mm.

Looking at the data of the early 1900’s; 1915 to 1923, and the recent early 2000’s data it can be seen in both cases that the amount of annual rainfall recorded in the drier areas during the dry periods is notably closer to those of the wetter periods The drier areas being on the north side of town while the wetter areas are in the south. This is attributed to a higher incidence of convectional rainfall (thunderstorms) occurring on the northern side of town while the southern side does not receive regular frontal and orographic rains as had occurred in the latter half of 2019.

The graph above also shows the relationship between the historical drought; 1915 to 1916 and possibly longer and the current situation, early 2000s (2015 to 2019). The trend in both cases is similar, let’s hope it stays that way and we get a good dollop in 2022.

 

ADDENDUM:

A compilation from: Cory Library and Master of Arts Thesis (1983) by Marion Rose Currie; The history of the Theopolis Mission – 1814 to 1851.

The major portion of the text is from Appendix A, additional information is from M R Curries Master of Arts Thesis; extracts from George Barkers Diary, 1823

On Sunday, October 5th, 1823, a gentle rain set in and lasted throughout that day and Monday. The parched ground absorbed it as soon as it fell, and all nature seemed to be refreshed and to raise visions of a prosperous harvest. The clouds then broke and blue sky again appeared, but only for a while.

Gentle rain set in

Monday 6th October; rain

Tuesday 7th Oct; rain

Wednesday 8th October; rain

The rain commenced and continued in heavier showers until Thursday, when a storm of driving wind and a torrential downpour, which lasted for some hours visited the district. The earth had had its fill and thus every river ‘came down’ in full force and those “rivers” which, except on such occasions as that referred to, are as dry as the surrounding country became mighty rushing torrents.

Friday 11th October; Last night was the most awful night of heavy rain and wind from the SW. This was a tremendous day of driving rain, not to be described. Rain forenoon.

Saturday and Sunday were fine.

Sunday 13th October; This morning it rained very steadily, but kept increasing through the day. After dark the rain descended in torrents, with thunder and lightning. This night was the most awful of all, the rain by far the heaviest. Our river was swollen and overflowed the whole plain.

But Monday dawned with mist which turned to more rain. This increased throughout the day until, towards nightfall, the climax of all this arrived. A most terrific thunderstorm came over and seems to have lasted for hours. It was accompanied by violent winds and a deluge of rain, compared with which, according to the accounts, the fall of the previous Thursday was mere perspiration.

Monday 14th October: Never did I behold daylight with more pleasure than this morning. No one can conceive the anguish we were in all night, expecting every moment the house would fall upon us, but God spared us. This day showery.

The FLOOD of 1823, as this event is usually called, must have been awful. There does not appear to be on record any other storm in the Eastern Province which even distantly approached it either in its widespread violence or in the quantity of water which fell in so short a time. The rivers and streams, already full, overflowed their banks and inundated the surrounding country; large tracts of land being under water to a depth of 3 or 4 feet (1 to 1.2m).

Flood events are not necessarily related to high annual rainfall but to high intensity rainfall over a short period as high intensity rainfall results in significant runoff especially where the ground is saturated by previous good rainfall. As most people do not possess automatic rain gauges, which are capable of measuring rainfall intensity, the amount of rain falling in a specific period of time, a practical solution is to use the rainfall measured over a 24 hour period (8am to 8am the following day) for a month or year and divide it by the number of raindays (rds) in that period A rainday is a twenty four hour period in which 0.2mm or more rainfall is measured, For example; January 2020 had 129.3mm recorded over 15 rds = 8.6, it is felt that anything below 7.0 is not conducive to sufficient runoff to maintain meaningful stream flow for a length of time. The last reported 100 year flood in 1922 the rainfall at the old Gaol was 998.3mm over 84 raindays giving a ratio of 11.9. The last few years are an example of a low rainfall to raindays ratio producing no runoff to fill our dams to the south (Table 8).

Table 8. Ratio of rainfall to raindays in the last five years

Year Rainfall

(mm)

Raindays Ratio

Rainfall/Raindays)

2015

2016

2017

2018

2019

823.2

535.2

696.5

551.8

411.3

108

98

113

96

103

7.6*

5.5

6.2

5.8

4.0

 

*Although Settlers Dam didn’t overflow in 2015 it was reported to be fairly full. There were reports in 2017 that due to negligence the scour valve, opened to maintain stream-flow below the dam normally for short periods, was left open for approximately two weeks dropping levels considerably.

The graph (Figure 2) below indicates the decline in rainfall at three stations; Darling St, Park Rd and Cartwright Ave, in Grahamstown over the last four years; this is typical of drought prior to a 100 year flood, also see Figure 1.

Looking at the years that Settlers Dam overflowed (Table 9) since 1986:

Table 9. Ratio of annual rainfall to raindays leading to Settlers Dam spilling.

Year Rainfall

(mm)

Raindays Ratio

(Rainfall/Raindays

1989

1997

2011

2012

862.0

738

1151

913

100

87

133

123

8.62

8.47

8.65

7.42

 

Figure 2

 

 

 

 

 

A repeat of the above conditions in the next few years is what is required to fill our dams on the southern side of Grahamstown and alleviate us from the present long drought. Will we get it, yes, and when?, it’s coming soon. So says the Met office in PE; “a serious extreme event is on the horizon. WHEN EXACTLY is the BIG question” and our rainfall data for Grahamstown supports it.

Everyone including the Municipality should be prepared for such an event. Clearing and keeping all drainage systems free of debris, especially plastics, to reduce damage and environmental pollution during flood events, especially 100 year flood events.

So use water sparingly until the deluge occurs, after which we should have sufficient water in our dams to the south to lift restrictions partially.

References:
George Barker – Journal of George Barker 1815 to 1828 of Theopolis Mission.
R L Mullins – Grahamstown Water Supply; a brief history from 1812 to 2008

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