Tuesday, 24 January 2023

Oeceoclades lonchophylla

 

Oeceoclades lonchophylla


Distribution and habitat

Oeceoclades lonchophylla is a terrestrial orchid species found growing in deep shade in leaf litter in coastal forest in  northern KwaZulu-Natal in South Africa, Eswatini, Mozambique, Tanzania and the Comoros islands.

Oeceoclades lonchophylla that I have seen in the wild have all been growing in relatively dry coastal forest on deep alluvial sands, where they were found growing in leaf litter in association with Sansevieria concinna and Scadoxus membranaceus both of which have leaves that are very similar in appearance making it hard to spot them growing together with these plants. Other plants growing together with Oeceoclades lonchophylla have been Scadoxus multiflorus, Scadoxus punicious and Microsorum scolopendrium.

Appearance



The Oeceoclades lonchophylla look and feel as if they are made of plastic.

The shiny leave blades of Oeceoclades lonchophylla are very thin being only 0.7mm, they are see through, a dull green colour with cross hatching with a darker green along the length of the parallel venation. The averaging length of the blade being 130 – 140 mm and between 50 – 55 wide, with petioles averaging 200mm in lenght.

The pseudobulbs are conical 30 – 40 mm long and 15 mm at the base, they are same dull dark green as the petioles and leaves.

The inflorescence which is 3.4 – 4 mm in diameter is between 500 – 600 mm long carrying between 

50 – 65 individual blooms is produced in December and January has a fairly long flowering time.



 

Annually in early summer Oeceoclades lonchophylla produces a new leaf, the inflorescence following shortly thereafter. Healthy plants will occasionally create a new additional lead.

In cultivation I have found that Oeceoclades lonchophylla grows well indoors under relatively low light conditions 250 – 350 lux in a loose sandy very well drained growing medium with a little added coarse compost and partly decomposed twigs and bark. I ensure good air movement at all times from open widows in the cooler months of the year and the additional use of a fan in the hot humid summer months. The relative humidity varies from around 55 percent in the winter up to 95 in the summer the average being around 75 percent.

Watering and feeding.

I ensure that the roots remain moist throughout the year increasing the amount of watering during the period of active growth, however I am careful not to over water them or allow the growing medium to become waterlogged. To prevent waterlogging and to increase gas exchange in the root zone it is advisable to have spacers under the pots to allow for free drainage and for air to enter the pots from below.

I feed frequently at very low concentrations usually one quarter or less than the recommended application rate with a variety of feeds, being EasyGro™ Flower and Fruit 3:1:6(46) hydroponic feed distributed by  Rolfes Agri, Seagro, Nitrosol, fulvic acid as well as with both black as well as rooibos tea.

Periodically I flush out the pots with clean tap water to remove any buildup of salts or other harmful substances of decay in the growing medium.



General care

The leaves are cleaned with water and a cloth from time to time to remove dust and other contaminants.

The leaves get a very light misting most mornings with tap water in the winter months I use warm water of about 40 degrees Celsius.

I lightly sprinkle the growing medium with a granular systemic neonicotinoid insecticide as a preventative measure against insect pests in particular those that attack the roots and the bases of the pseudobulbs that usually go unnoticed until the plant shows advanced signs of damage.

Article written by Michael Hickman 24.01.2023


 

 

Wednesday, 21 December 2022

Growing Asplenium prionitis indoors

Asplenium prionitis

Asplenium prionitis

The specie name prionitis means like a saw, this fern has toothed pinna margins.

Habitat

On ground or boulders along streams or river courses, deep shade in wet coastal forests.

Distribution in South Africa

Eastern Cape and KwaZulu-Natal

Distribution worldwide

Africa, Madagascar, Comoro and Mascarene Islands.

Cultivation

I have established that Asplenium prionitis makes a great very easy to grow houseplant, growing well indoors under relatively high light conditions but they do not tolerate full sun conditions for long without burning.

My plants originate for a small plant that I collected in the forest on the eastern side of the Wentworth hospital in Durban about 40 years ago.

Asplenium prionitis appear to grow in any well drained growing medium that has a high organic component. My plants are presently growing well in a mixture of coco fiber chips with a little added charcoal.

Watering

I water heavily about once per week to flush out the growing medium and mist daily using an insecticide sprayer.

The sprayer I use to water and feed my plants

Fertilizing

I feed frequently using a very dilute amount of a variety of plant feeds such as

EasyGro™ Flower and Fruit

is a 3:1:6(46) water soluble fertilizer, high in concentrations of Potassium ideally suitable for crops during the flowering and fruiting stages.

SEAGRO™ Bio-Fertiliser

Bionutrient with Enhanced Amino Acids. A fish emulsion rich in micro & macro elements and 17 amino acids. Seagro is used as organic fertilizer in agricultural practices for maintenance of crop health. Seagro has a remarkable impact on crop quality as well as yield through the activation of key metabolic processes. Seagro serves not only as a nutrition and stress reliever, but also plays an important role in the vitality of the microbial population in the soil.

Nitrosol Original Biological Fertiliser

is the original formulation developed by Dr. Peter Kauzal, a veterinary surgeon, from ruminant blood and bone. Nitrosol Original has a balanced NPK of 11.5.7 plus trace elements and minerals and recommended for use in all horticultural crops and home garden.

Fulvic acid.

Fulvic acid is group of chemicals formed when plants and animals break down. It is found in the humus (organic matter) part of soil and peat, and is also found in streams and lakes.

Fulvic acid benefits of increases root respiration and formation,enhance plant growth and yield. Humic fulvic acid can enhances pH buffering capacity, enhances photosynthesis and respiration, increases cationic exchange.

Brings about an improvement in the transport of nutrients, making them available in the areas of need. Increases the synthesis of proteins and nucleic acids, which will facilitate the action of enzymes formed with some amino acids and micro-nutrients.

Tea

I also feed and mist regularly with a week solution of both black tea and rooibos tea which appears to be very beneficial to both my ferns as well as my orchid plants.

Propagation

Asplenium prionitis propagates very easily from spores if one has the patience to wait a few years for a good sized mature plant, the plus factor is that one can easily propagate large numbers of new plants.


The sporangium containing the spore can be clearly seen under the leaves

The method that I use is to obtain a large glass jar into which a place a layer of small crushed stone topped with a thin layer of silica sand used for swimming pool filters. Over this layer I place a thin layer of peat or coco peat that is salt free onto which I sprinkle the ripe spore. To water I use a small insecticide spray bottle watering enough that the water creates a small reservoir of water approximately half way up the crushed stone. I then cover the jar with a piece of cling wrap that can be fastened by an elastic band of piece of string and place the jar in an area of bright light that does not receive and direct sunlight or under lights giving around 5,000 lux for between 12 -14 hours.


Asplenium prionitis seedlings growing in the jar they were planted in

When large enough I pot the seedlings into small pots and place in a very humid place usually over a tray of water.


Asplenium prionitis seedling that was planted out six months ago

Pest control

To date I have not encountered pests on my plants however I treat them on a regular basis As I do with my other indoor plants as a precaution because other Asplenium species that I grow are prone to soft scale and mealie bug attack. In the past I sprayed my plants which entailed the use of spray overalls, googles and respirator which was a major task and was both hazardous to my health as well as made the entire house stink for a day or two. Furthermore, this process needed to be repeated on a regular basis. I now use a granular Insecticide with great success and no fuss at all. The product that I use is , Efekto Granules Plus active ingredient Imidacloprid (chloro-nicotinyl) which I apply to the roots and is taken up by the roots and evenly distributed to the entire plant which is highly effective against most sucking insects and provides long term control between 4 – 8 weeks. Efekto Granules Plus is a Neonicotinoid a class of neuro-active insecticides chemically similar to nicotine compared to organophosphate and carbamate insecticides, neonicotinoids are less toxic to birds and mammals, and therefore very safe to use within the home environment.

However, Neonicotinoid has a very bad name for very good reasons for widespread agricultural use, for reasons that do not apply at all for very limited indoor use, in fact it is an ideal insecticide for indoor application due to its low toxicity for humans and its very targeted use in comparison to sprayed insecticides.. Neonicotinoids have been studied in relation to adverse ecological effects, including honey-bee colony collapse disorder (CCD), and declining populations of insect-eating birds. In 2013, the European Union and some neighbouring countries restricted the use of certain neonicotinoids. In 2018 the EU banned the three main neonicotinoids (clothianidin, imidacloprid and thiamethoxam) for all outdoor uses, but in 2020, France re-allowed the use of neonicotinoids on sugar beet crops. Several US states have restricted neonicotinoids out of concern for pollinators and bees.

Article written by Michael Hickman 21.12.2022


Thursday, 16 November 2017

Eragrostis lehmanniana

Eragrostis lehmanniana var. lehmanniana


Eragrostis lehmanniana var. lehmanniana


Common names
Lehmann love grass, Lehmann's love grass

Eragrostis lehmanniana var. lehmanniana is one of the many grasses that I have collected and have growing on my property in  Mount Moreland. This particular species that I collected in Jwaneng in Botswana has been grown because of its most beautiful blue to grey colouration.

Description
Eragrostis lehmanniana var. lehmanniana is a tufted perennial grass. The culms are up to 60-90 cm high with narrow leaves 1-3 mm wide. Panicles are 10-20 cm long, lax and open. Its bunch habit is somewhat open in that individuals do not form a compact crown with numerous stem bases.

Eragrostis lehmanniana var. lehmanniana inflorescens

Distribution
Eragrostis lehmanniana is native to Southern Africa where it occurs over much of the summer rainfall area. Eragrostis lehmanniana is adapted to semi-arid, tropical and subtropical summer-rainfall areas and is fairly tolerant of drought.

Habitat
Eragrostis lehmanniana flourishes in areas of low rainfall of 300-500 mm in particular in sandy soils of pH 7.0-8.5. Eragrostis lehmanniana is common in several habitat types such as Acacia woodland and Kalahari grasslands and savanna. It tolerates high pH caused by calcium and magnesium rather than by sodium. It is often found in areas where disturbance or over grazing has taken place.
Eragrostis lehmanniana is a very productive grass. In South Africa, reported yields are 6-7 tons dry mass per hectare per year.

Eragrostis lehmanniana var. lehmannianashowing the colour of the stems



Uses
Eragrostis lehmanniana is a valuable grazing grass in the more arid regions where it is one of the first grasses to sprout in the spring and after rains. Eragrostis lehmanniana is also widely used for reseeding disturbed areas because it gives a rapid soil cover. 

Forage management
Eragrostis lehmanniana should not be too closely grazed and must be well established before being grazed. Only half the annual growth should be grazed off, but it can be continuously grazed for maximum production. However, a late summer rest improved the total available carbohydrates, crude protein and phosphorus contents, and allows the grass to seed.

Article written by Michael Hickman 16.11.2017



Saturday, 26 August 2017

The Danger of using Picloram in Environmentally Sensitive Areas



In 2013 I first began noticing what was very clearly herbicide damage and death being caused in particular to two species of tree being Grewia occidentalis and Trema orientalis. I took photos of the affected trees but could not establish the source of or the herbicide that had caused the damage.



Trema orientalis that has been damaged by a very small dose of the herbicide picloram 

More and more I began noticing trees that had been affected or had been killed by what was very clearly as the result of herbicide poisoning but again I could not establish what herbicide had caused the death of the trees and when the spraying had occurred, in some areas the last spraying had occurred a few years previously.

About a year after first observing the herbicide damage to trees and other plants I accidentally discovered the culprit herbicide. 

I had removed a narrow band of bark down to the cambium on three trees on my property and carefully applied a very narrow band of Kaput Gel containing Triclopyr and Picloram in a band of about 50 mm on the bottom half of the area where the bark had been removed. Within a few days I noticed that two trees growing within a few meters of one of the trees started to show signs of herbicide poisoning and within two weeks one of the small trees Hippobromus pauciflorus was completely dead, the second small tree affected was Obetia tenax which very nearly died but eventually after more than three years recovered. For up to three meters along the line of the main roots all dicotyledonous ground cover plants were affected. A wild grape Rhoicissus tomentosa growing about six meters from one of the other trees was also very badly affected clearly from herbicide leached from the tree that had been treated with Kaput gel, eventually over ninety percent of the very large vine died what is left at the time of writing being August 2017 has not completely recovered.

Obetia tenax two years after having been poisoned by picloram which leached from the roots of a tree that was treated some distance away
Once that I had noticed how very small doses of picloram had affected other plants growing nearby I investigated what herbicides had been sprayed in the areas where so much herbicide damage had occurred and discovered Plenum containing Picloram has been sprayed to control weeds in adjoining grassland. In most areas where Plenum containing Picloram had been sprayed 100% of Trema orientalis trees had died.


Trema orientalis that has been killed by a very small amount of the herbicide picloram note the two trees growing beneath it have not been affected
Since then I have kept a very close eye on where ever I have seen contractors spraying or applying herbicides. Time and again I have found that Herbicides containing Picloram have caused excessive amounts of damage and death to a number of species.

I have observed that the following trees as extremely sensitive to very low doses of picloram


Barringtonia racemosa

Brachyleana discolor

Celtis africanus

Croton  sylvaticus

Dombeya cymosum

Ficus lutea

Grewia occidentalis

Hippobromus pauciflorus commonly known as false horsewood

Obetia tenax

Scadoxus puniceus

Trema orientalis

Wild grape Rhoicissus tomentosa


 
Croton sylvaticus dying after picloram following heavy rains in an area that had been sprayed a year or two before

Research on the internet confirmed what I had recorded but also brought to light some alarming facts as to the danger of using Picloram in sensitive natural areas or near to them.

 As a result of my own observations as well as what information I have obtained from the internet and a number of experts that  I have discussed the danger of applying Picloram with I will certainly never spray with any Herbicide containing Picloram in any natural area neither would I recommend any one else to do so.

I would go as far as to say do not under any circumstances ever spray with any herbicide containing Picloram in environmentally sensitive areas for instance in conservation areas or any other area when no damage to indigenous vegetation may occur. Also do not use herbicide gels containing Picloram and if there is absolutely no alternative then do so with extreme caution and only on plants that cannot be controlled with other herbicides because as reported above picloram leaches from the roots from the roots of plants that have been treated with it killing or damaging desirable plants growing nearby.



Barringtonia racemosa protected tree has been killed by the uninformed and careless use of picloram at the uMdloti river lagoon by an NGO doing alien plant eradication
Damage that has been cause to Barringtonia racemosa a protected tree in South Africa at the uMdloti river lagoon by an NGO doing alien plant removal

This sort of damage to the natural environment and protected trees can be avoided

There is no need at all to use Picloram in natural areas because there are herbicides that are just as effective and are far safer to use so please do not use this nasty herbicide in these areas.


The following information in regards to picloram has been published on the internet.


Picloram is a systemic herbicide that belongs to the pyridine family of compounds, used for general woody plant control. It also controls a wide range of broad- leaved weeds excepting mustards (crucifers). Most grasses are resistant to picloram so it is used in grassland management programs

Picloram can be sprayed onto foliage, injected into plants, applied to cut surfaces, or placed at the base of the plant where it will leach to the roots. Once absorbed by the foliage, stem, or roots, picloram is transported throughout the plant.

Picloram kills susceptible plants by mimicking the plant growth hormone auxin (indole acetic acid), and when administered at effective doses, causes uncontrolled and disorganized plant growth that leads to plant death

Picloram is the most persistent member of its family of herbicides which does not bind strongly with soil particles and is not degraded rapidly in the environment, allowing it to be highly mobile and persistent. The half-life of picloram in soils can range from one month to several years.


As a result Picloram can move off-site through surface or subsurface runoff and has been found in the groundwater. Picloram may also “leak” out of the roots of treated plants, and be taken up by nearby, desirable species.


Concentrations in runoff reported by researchers are often adequate to prevent the growth of non-target terrestrial and aquatic plants, and therefore, picloram should not be applied near water.


Picloram is a dicot-selective, persistent herbicide used to control a variety of annual and perennial broadleaved herbs and woody species. It can persist in an active form in the soil from several months to years, and can also be released from the roots of treated plants into the soil, where other non-target species may take it up and be injured or killed (Hickman et al. 1989). The cut-stump treatment is typically used to control woody species. Picloram is metabolized slowly by microbes and can be degraded through photolysis when directly exposed to sunlight. The half-life of picloram in soils can vary from one month to three years depending on soil and climate conditions. Other methods of chemical degradation do not occur readily. Picloram does not bind strongly with soils and can be highly mobile, moving to soil depths of two meters and laterally to one km.


Soils

Picloram is not readily degraded in soils and can be persistent and mobile. Estimates of the persistence of potentially toxic concentrations vary from a few months to three years, depending on soil and environmental conditions (Scrifres et al. 1972; Fryer et al. 1979; Johnsen 1980; Norris et al. 1982; Neary et al. 1985; Smith et al. 1988; Bovey & Richardson 1991; Close et al.1998). In soils where picloram persists for long periods of time, it has high potential to move vertically and horizontally, which can lead to contamination of water sources and non-target (terrestrial and aquatic) sites. Smith et al. (1988) reported that one and two years after treating a site with 3.38 kg/ha of picloram, residues were found in the soils and groundwater of an untreated site one km away

Water

Because picloram is water-soluble and does not bind strongly to soil, it is capable of moving into local waterways through surface and subsurface runoff (Michael et al. 1989). The extent to which picloram enters a waterway depends largely on the type of soil, rates of application, rainfall received post-application, and distance from point of application to nearest water body or groundwater (Trichell et al. 1968; Baur et al. 1972; Mayeux et al. 1984). In general, the larger the buffer between treated sites and surface water bodies or groundwater, the smaller the potential for water contamination

Vegetation

In non-susceptible species such as grasses, picloram is metabolized rapidly, while in susceptible species, picloram can remain intact for extended periods (WSSA 1994). When applied to soil, picloram is readily absorbed by plant roots. When applied to foliage, the majority of picloram (70-90%) remains in the leaves and only a small percentage is conducted to stems and roots (Meikle et al. 1966; Cessna et al. 1989; Hickman et al. 1990). Unabsorbed picloram remaining on leaf surfaces may photo degrade in sunlight or be washed off with rainfall or irrigation.

Picloram absorbed by plants can be released into the soil by passive transport through the roots and then taken up by roots of other nearby plants (Hickman et al. 1990). Therefore, even selective application of picloram to specific target plants could potentially harm nearby desirable plants.



Picloram

Chemical name:               4-amino-3,5,6-trichloro-2-pyridinecarboxylic acid

Chemical class/use:         chlorobenzoic acid herbicide


Picloram is sold in South Africa under the following brand names

Grazon

Tordon

Browser

Access

Scrubber

Picloram is found in various herbicide mixes in South Africa under the following names

Plenum - Active Ingredients: Picloram (80g/l), Fluroxypyr (80g/l)

GLADIATOR 160 ME – Active ingredients: Fluroxypyr 80 g/l, Picloram 80 g/l

There are probably other trade names of herbicides containing picloram so please check before you apply herbicides in sensitive areas.

References

Weed Control Methods Handbook, The Nature Conservancy, Tu et al. 


Extension Toxicology Network, A Pesticide Information Project of Cooperative Extension Offices of Cornell University, Michigan State University, Oregon State University, and University of California at Davis.
  



Article written by Michael Hickman 20.08.2017





Wednesday, 22 February 2017

Some thoughts on constructing and maintaining a natural pool


Nymphaea nouchali
Please take note this is only a brief list of the most important aspects to consider and is not by any means comprehensive 

For a professional fee I will design, give advice and supervise the construction of a natural pool for you.

This is a subject that has fascinated me for much of my life having had my first encounters with fish ponds at my grandparents’ home as far back as I can remember. I used to sit for hours at my grandmother fairly large fish pond fascinated by the wildlife that it attracted in particular the whistling frogs, Hyperolius marmoratus or Painted feed frog, as I now know them. I was also extremely fascinated by the dragon flies, back swimmers and pond skaters that grandmother fishpond attracted. I was not particularly interested in the bright orange gold fish that she kept in it. As a result of this interest I first started constructing small ponds as a school boy. While in Germany way back in time I got to know about the company re-natur in Germany that specialises in the construction and supply of materials for natural pools
Faszination Gartenteich written by Wolfram Franke.


Crinum paludosum
Design and functionality
Most of those who give into the temptation to construct of have a natural pond constructed for them are going to want a pond that is a peasant blend of good design and high functionality, in short it must look good at the same time serving its purpose of attracting the largest variety of wildlife into the garden as possible. This is easy to do if the designer knows his or her subject well and follows a few basic rules
There are things that are desirable to have and some that are necessary, what is desirable is not always necessary. If the pool looks like a dogs breakfast it will probably work but not as well as if it is well planned with open patches of water and all the plants in their own preferred places and it will certainly look a lot better if it is well planned

Size of pool
For a number of reasons the larger the pool the better, however ponds the size of an average bucket can work which can and will attract the odd insect of small frog. Generally the larger the pool the more stable it is the more wildlife it will attract and the easier it is to keep in ecological balance.

 Painted Reed FrogHyperolius marmoratus
Depth of the pool
To be most successful the pool must have both shallow and deep sections, most of the plants will only grow in relatively shallow water leaving the deeper sections to remain free of vegetation which is a desirable and necessary design factor
Shallow areas must be created for the planting of most of the aquatics that are desirable for planting in a natural pool

Movement of the water
It is desirable that there is some movement of the water but this is not necessary for the pond to be successful.
The provision of a small low volume pump that pumps daily during the hours of daylight is a most desirable addition to any pond, the pump could be powered by a solar panel. Directing the flow of water over a pebble or gravel stream or over a waterfall will introduce a considerable of extra oxygen into the water which is of particular benefit on hot humid days with little air movement.

Free access into and out of the pool
The design must allow creatures that fall into the pool in error to have a way to escape without being doomed to drowning

Safety of young children
The pool must be designed in a manner that it is not easy for small children to fall into it and drown. Where this is not possible or for additional safety a suitable fence that allows the unrestricted passage of desirable creatures to reach the pool must be erected

Nymphoides thunbergiana
Construction materials
I am not going to go into any detail on this aspect other than to mention a few materials that can be used.
Where the ground water level is high enough all that is required is to dig out a hole which will soon fill with water.
Natural clay can be used to create a natural pond liner
Various grades of plastic can be used
Concrete
Bricks and mortar
Fibre glass
These are the materials that are most often used to create ponds and pools

Construction methods
Again I will not go into detail on this aspect of pool construction as there are many methods depending on a number of factors.

Containers can be converted to small ponds
Just about any container that holds water can be made into a micro pond which attract wildlife such as frogs and dragon flies
If anyone needs more information please contact me.

A newly emerged dragonfly busy pumping up its wings
Water supply
Water to keep the pool filled can be obtained from the following sources
Mains water
Rain water capture from roofs
Water capture from air conditioners
Boreholes

Pumps and Filters
Neither pumps nor filters are essential however both can improve the conditions within the pool for a number of creatures.
The running times of pumps will be determined by both the design as well as the preference of the owner of the pool. Solar panels can be used to provide power for the pumps.
Bio filters planted with plants can be constructed that provide both filtration as well as desirable features to add interest to the design.
When using a filter do not forget to use a leaf trap.
Use only energy efficient pumps, most designed for use in Koi ponds are far more efficient than the majority of equivalent capacity pumps supplied for swimming pool use

Snoring Puddle
Phrynobatrachus natalensis 
Décor
Décor such as waterfalls, streams, rocks, branches can be added
Planting
Plant either directly into the soil provided or into planting containers.
Plastic crates lined with shade cloth hessian or even newspaper is ideal to plant aquatic plants into

Planting medium
Use low nutrient clay, sand or small natural river stones.

Nutrition
Nutrition is very important but be very, very careful not to over nitrify the water apply a little at a time and wait for results. Apply at the point of use if at all possible.

Agricultural grade fertiliser rolled up in a piece of news paper,
Agricultural grade slow release fertiliser rolled up in a piece of news paper,
Grow sticks

are the most suitable sources of nutrients for your natural pond.
One can add liquid fertiliser to the water but be extremely careful.

Running Frog
Kassina senegalensis
Maintenance
Control of duck weed Lemna species is most important because if left it can very rapidly get out of control. Control all fast growing species and those that move out of their allocated zone before they get out of hand and take over the pond.
Sludge may need to be removed from time to time. Bio filters will need cleaning from time to time, plants growing in bio-filters will need cutting back from time to time to remove nutrients from the system.

Control of Mosquitos
Mosquitos could become a temporary problem in a newly constructed natural pool but there is no need to panic whatsoever the problem will resolve it’s self as the pond matures and is colonised by insects that eat mosquito such as Dragonfly larvae, back swimmers of the family Notonectidae and pond skaters of the family Gerridae
Mosquitos can also be controlled by the introduction of suitable small carnivorous indigenous fish such as Barbus viviparus (bowstripe barb). If the mosquitos become a problem they can easily be controlled with Mosquito wise, which is a biopesticide containing the Bacillus thuringiensis subsp. israelensis

Selection of plants
Beware of fast growing fast multiplying plants in particular grasses and sedges because most become dominant taking over the entire pond in time making it a dogs breakfast.

Kniphofia pauciflora below is most worthwhile to plant in your pool because it is very attractive and is almost extinct in the wild

Kniphofia pauciflora
Chlorophytum bowkeri
Crinum paludosum
Cristella dentata
Cyperus dives
Cyperus sexangularis
Cyperus textilis
Eulophia angolensis
Gunnera perpensa
Ipomoea ficifolia
Kniphofia pauciflora
Kniphofia rooperi
Ludwigia stolonifera
Nesaea radicans
Nymphaea nouchali var. caerulea
Nymphoides thunbergiana
Persicaria attenuata
Persicaria serrulata
Phragmites australis
Potamogeton pusilis
Potamogeton schweinfurthii
Ranunculus multifidus
Schoenoplectus scirpoides
Typha capensis
Xyris capensis
Zantedeschia aethiopica

Dragon flies
A variety of colourful dragon flies will quickly make your new natural pool their home



Shrimps
The fresh water shrimp Caridina nilotica is a useful addition to the natural pool because it is a scavenger and algae eater which does very well and multiplies very rapidly in a pool that is free of large fish.

Frogs
Afrixalus fornasinii                            Greater Leaf-folding frog
Hyperolius marmoratus                      Painted Reed Frog
Hyperolius argus Argus                      Argus Reed Frog
Schismaderma carens                         Red Toad
Phrynobatrachus natalensis                Snoring Puddle Frog
Kassina senegalensis                          Running Frog


Greater leaf folding frog
Afrixalus fornasinnii 
Fish
Be extremely careful when deciding to introduce fish into your pond in particular if it is a very small pond as fish can do a lot of damage to the aquatic ecosystem in particular eating plants and or eating desirable insects such as dragonflies, water boatmen and pond skaters.
The introduction of suitable small carnivorous indigenous fish such as Barbus viviparus bowstripe barb

Bowstripe Barb
Barbus viviparus 

.For a professional fee I will design, give advice on and supervise the construction of a natural pool for you




Links to further information

Mosquito wise is a biopesticide containing the Bacillus thuringiensis subsp. israelensis




Indigenous Frogs
Afrixalus fornasinii Greater Leaf-folding Frog http://frogmap.adu.org.za/Species_text.php?sp=30

Hyperolius marmoratus Painted Reed Frog http://frogmap.adu.org.za/Species_text.php?sp=590


Phrynobatrachus natalensis Snoring Puddle Frog http://frogmap.adu.org.za/Species_text.php?sp=740

Insects
Water boatmen  Notonectidae https://en.wikipedia.org/wiki/Notonectidae

Pond skaters of the family Gerridae https://en.wikipedia.org/wiki/Gerridae

Plants

re-natur Germany https://www.re-natur.de/


Michael Hickman
Landscape Design and Rehabilitation Specialist

Tel: +27 82 061 2593

michael@ecoman.co.za

22.02.17


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