Wednesday, June 19, 2013

List of botanical gardens

From Wikipedia, the free encyclopedia
botanical garden is a place where plants, especially fernsconifers and flowering plants, are grown and displayed for the purposes of researchconservation, andeducation. This distinguishes them from parks and pleasure gardens where plants, usually with showy flowers, are grown for public amenity only. Botanical gardensthat specialize in trees are sometimes referred to as arboretums. They are occasionally associated with zoos.
The earliest botanical gardens were founded in the late Renaissance at the University of Pisa (1543) and the University of Padua (1545) in Italy, for the study and teaching of medical botany. Many Universities today have botanical gardens for student teaching and academic research, e.g. the Arnold Arboretum, Harvard University, USA, the Bonn University Botanic Garden, Bonn, Germany, the Cambridge University Botanic Garden, Cambridge, England, the Hortus Botanicus, Leiden, Netherlands, and the Kraus Preserve of Ohio Wesleyan University, USA.
This page lists important botanical gardens throughout the world.
A useful database cataloging the world's botanic gardens can also be found at the Botanic Gardens Conservation International (BGCI) website. With over 800 participating botanical gardens, BGCI forms the world's largest network for plant conservation and environmental education.[1]

Thursday, June 13, 2013

Diatoms


Diatom (Arachnoidiscus): from The Microscope; Carpenter and Dallinger, 1891.For much of the course of life on Earth, these microscopic algae have been, and are still, extremely important. More than 10,000 living diatom species are known, with about the same number of named fossil forms.

Over ninety percent of the biosphere is plant life, of which diatoms make up about a quarter by weight. They are enormously abundant in the upper layers of the world's oceans, providing high-grade nutrition to creatures as diverse as protozoans and baleen whales, and supplying the atmosphere with around a quarter of its oxygen.
Most diatoms are much less than half a millimetre in size, but their oil-rich, silica-shelled bodies, sinking to the ocean floor in vast numbers over long periods of time, have been transformed into the petroleum deposits of the world, and their skeletons have formed thick strata of diatomaceous earth which has found application in human products as varied as dynamite and (in earlier times) toothpaste.

Whilst most diatoms are to be found in the oceans, they are also abundant and important in freshwater habitats and in moist soil. The siliceous skeleton common to all varieties is frequently described as structured like a pill box or Petri dish, and offers two possible views -- the valve view (as in viewing a Petri dish from the top) and the side or girdle view. They present a great variety of shapes (mostly symmetrical) in valve view, but most commonly are rectangular in girdle view (See Cocconeis below). In general terms, the shape of the valve can be described as pennate (elongated) or centric (circular). The shape and markings of the valve are the means by which species are identified.

The photosynthetic pigment of diatoms is brown, and occurs in the pennate diatoms usually in the form of two identical plastids running the length of the cell (see Navicula below), and in the centric diatoms in the form of numerous sometimes clumped granules.
In the summer waters of a healthy pond, diatoms can grow to such numbers that submerged plants can have the appearance of being covered with a brown mud which the microscope reveals as a dense growth consisting entirely of diatoms.
Notes on diatom reproduction will be added at a later date.


Many Gomphonema diatoms on a filament of algae.. Ref: gompho01.




















Gomphonema on a filament of algae. Ref: gompho00.




















Tabellaria diatoms among filamentous algae. Ref: tabell02.




















Diatom chloroplast. Ref: diatom02.

















Pinnularia and algae. Ref: pinnul00.




















Cocconeis on a filament of algae. Ref: coccon01.



Algae in the Planted Aquarium

Algae in the Planted Aquarium

Assembled by Kris Weinhold

Table of Contents

Introduction

Every aquarium keeper has likely had to deal with an algae problem. In a planted aquarium, an even more complex set of variables can easily go out of whack, and end in a sad algae state. I’ve combined information from a few different websites, added some personal experience, and have hopefully assembled a complete reference for the most common types of algae seen in the planted aquarium, along with their causes and cures.

Black Brush/Beard (Rhodophyta)

Black Brush/Beard Algae
Black brush, or BBA, algae can be one of a number of specific genera of “red” algae in theRhodophyta family. Most of the algae in this family are actually marine, but a few freshwater species exist that particularly target our planted aquariums. This algae may be black, brown, red, or green in coloration, and can quickly coat your plants and hardscape if not kept in check.
Cause:
  • Nutrient Imbalance – potentially excess N, P, Fe. Strive for the following nutrient levels: N (10-20ppm), P (0.5-2ppm), K (10-20ppm), Ca (10-30ppm), Mg (2-5ppm), Fe (.1ppm).
  • Low pH – Neil Frank observes that African Rift tanks never have BBA. It’s believed that BBA thrives in acidic environments, which is unfortunately what most plants prefer.
Cure:
  • Increase CO2 – This will stimulate plant growth, which should help the plants out-compete the algae for resources.
  • Excel/H202 treatment – Use a syringe to spot treat problem areas. Then manually remove when BBA turns grey/white.
  • Manual removal – Use toothbrush to remove as much as possible.
  • Bleach treatment – Dip affected hardscape items/hardy plants in a bleach/water solution using a 1:20 ratio of bleach to water. Before putting them back into the tank, make sure the item is free of bleach odor.
  • OxiClean treatment – Dip affected hardscape items in a OxiClean solution, making sure you only use the original OxiClean with no other additives.
  • Maintain proper water change/dosing schedule – weekly / bi-weekly changes.
  • Algae Crew – Siamese Algae Eaters (SAE) and Amano shrimp are known to eat this algae.
  • Copper (not recommended) – There are commercial algaecides containing copper that will kill BBA, but they will mostly likely also kill your plants.

Brown Algae (Diatoms)

Diatom Algae
Brown Algae, or diatoms, often present themselves as a brown, muddy, muck that covers plant leaves and hardscape items. It is rare to be seen in a fully established aquarium.
Causes:
  • Newly setup tank – Aquariums that have just been setup seem to be prone to diatom algae.
  • Excess nutrients – Silica in particular appears to be a trigger. Contact your water utility company for a report detailing silica concentrations in your water supply.
  • Possibly old bulbs – Sometimes, old bulbs can encourage the conditions for diatom algae.
Cure:
  • Time – Allow it to use up the excess silica, and it will often disappear on its own.
  • Manual removal – Siphon/scrape diatoms manually for quick removal.
  • Algae Crew – Otocinclus and Nerite snails are fantastic at clearing a tank of diatoms. They help with other sorts of algae as well.

Blue Green (Cyanobacteria)

Blue Green Algae (BGA)
While often referred to by aquarists as an algae, Blue Green Algae (BGA) is in fact a bacterial slime that can easily coat everything in your tank. Appearing as either a green, black, or purple coating, BGA is perhaps best known for the unique earthy smell that it has when pulled from the tank. As a nitrogen-fixing bacteria, it will fully deplete your water column of any available nitrogen.
Causes:
  • Low nitrates – Usually present when all of the nitrogen/nitrate has been removed from the water column. While this is a triggering condition, it is also exacerbated by the bacteria itself using any remaining nitrogen.
  • High organics – Overfeeding, or excess organic matter in the tank can trigger BGA.
  • Old light bulbs – Sometimes present when light bulbs are no longer emitting usable light. This may be more of a matter of your plants no longer being able to out-compete the bacteria.
  • Poor water circulation – Circulation is key in a planted aquarium so that no “dead spots” are present where nutrients have been used up locally, but fresh ones are not being recirculated throughout.
Cures:
  • Increase nitrates – Dose nitrates until the concentration reaches ~5ppm.
  • Add fast growing plants – this helps to out-compete the algae for resources.
  • Blackout – BGA cannot survive without light.
  • Excel/H202 treatment – Use a syringe to spot treat problem areas. Then manually remove dead patches.
  • Erythromycin – use antibiotics at half dosage to kill the bacteria. Mardel Labs’ Maracyn contains erythromycin and has been used effectively without harming most plants.

Cladophora

Cladophora
Cladophora is by far the toughest algae to remove from the aquarium. Forming green, tough, wool-like mats, it seems to favor intermingling itself into hairgrass, substrate, and hardscape items.
Causes:
  • Marimo Balls – Being in the same family as these algae balls, they can sometimes introduce Cladophora to your aquarium.
  • Healthy Conditions – Unfortunately, Cladophora seems to favor the same healthy water conditions that your plants require.
Cure:
  • Manual removal – Use toothbrush/tweezers to remove as much as possible.
  • Excel/H202 treatment – Use a syringe to spot treat problem areas.
  • Luck – Very difficult to 100% remove.

Fuzz Algae

Fuzz Algae
Fuzz algae often shows up on plant leaves giving their edges a slightly fuzzy appearance.
Causes:
  • Nutrient Imbalance – Strive for the following nutrient levels: N (10-20ppm), P (0.5-2ppm), K (10-20ppm), Ca (10-30ppm), Mg (2-5ppm), Fe (.1ppm).
  • Low CO2 – Strive for 20-30ppm concentration of CO2, as permitted by fauna.
Cure:
  • Maintain proper nutrient/CO2 levels
  • Algae Crew – Siamese Algae Eaters (SAE), Amano shrimp, Otocinclus, and Mollys are known to eat this algae.

Green Dust Algae (GDA)

Green Dust Algae (GDA)
Green Dust Algae (GDA) is a “dusty” green film that appears on the surface of the glass. It’s caused by zoo-spores, and seems to avoid attaching to hardscape items or plant leaves.
Cause:
  • Unfortunately, I haven’t been able to locate a concrete cause for GDA.
Cure:
  • Leave alone – GDA appears to have a finite lifecycle, so that if you allow it to run full cycle without scraping it from the glass, it should harden, and fall off after roughly 21 days. After this time, scrap any remaining GDA from the glass, and do a thorough cleaning and water change.
  • Nerite Snails – Nerite snails can help eat through some of the GDA on the glass, but the approach above will likely have to be undergone for full removal.

Green Spot (Choleochaete orbicularis)

Green Spot Algae
Green spot algae is very commonly seen on the glass of tanks when there hasn’t been a water change in awhile, or when an inadequate fertilization scheme has been conducted. GSA also appears on long lasting leaves, such as Java Fern, Anubias, and Bolbitus.
Cause:
  • Low phosphate (PO4) levels – almost exclusively caused when phosphate levels are depleted.
Cure:
  • Scrap glass – Use a razor blade to most easily remove from the glass.
  • Dose Phosphates – Dose PO4 to a concentration of 0.5-2.0ppm.
  • Nerite Snails – Nerite snails can help you remove green spot from leaves, as well as, the glass.

Green Water (Euglaena)

Green Water
Green water is free floating single-celled euglenoid protists. It contains chlorophyll a and b, plus carotenoids, giving them their green coloration, but they are not plants. With over 40 genera of Euglenoids and over 1000 species, this form of algae is one of the most abundant forms of life on the planet, and is an essential part of the food chain. Unfortunately, aquarists don’t want it in their tanks.
Cause:
  • Initial Setup – Usually present shortly after an aquarium is initially setup, prior to the full establishment of the microorganisms (free-swimming plankton that feed upon it).
  • Nutrient Imbalance – Strive for the following nutrient levels: N (10-20ppm), P (0.5-2ppm), K (10-20ppm), Ca (10-30ppm), Mg (2-5ppm), Fe (.1ppm).
  • Medication – if the medicine affects the biofilter of the tank.
Cure :
There are a number of cures for green water:
  • Blackout – leave the lights out, and block out any ambient light from the tank for 5 days. Your plants have reserves that the algae does not, so they will survive, but may look a little ratty for a week or so.
  • Diatom/Micron Filter – fine particle filters can clear the water.
  • UV Sterilizer – zaps the algae with ultraviolet light, clearing the water. Some reports say that UV light also affects nutrients in the water column.
  • Flocculants – Clumps small particles together, allowing your mechanical filtration to remove them from the water. i.e. AquaClear
  • Daphnia – Placed in a breeder net, the daphia will consume the algae.
  • Small Water Changes – do small (5-10%) water changes, every day until clear.
Notes:
  • Avoid large water changes, as that prevents microorganisms from establishing themselves.
  • In addition to the cures, make sure to identify and eliminate the source of the problem, or it may return.

Hair/Thread Algae

Hair Algae
Hair/Thread Algae consists of long green filaments reaching as long as 30cm in length. It often mixes itself in among moss, and is sometimes grown purposely as an extra food supplement for tank inhabitants.
Cause:
  • Excess iron levels – Concentrations >0.15ppm
Cure:
  • Manual removal – Use toothbrush to remove as much as possible.
  • Maintain proper water change schedule – weekly / bi-weekly changes.
  • Rebalance Nutrients – Strive for the following nutrient levels: N (10-20ppm), P (0.5-2ppm), K (10-20ppm), Ca (10-30ppm), Mg (2-5ppm), Fe (.1ppm).

Staghorn (Compsopogon sp.)

Staghorn Algae
Staghorn algae is aptly named as its branching resembles the antlers of a stag’s horns. They are coarse, branching strands that commonly attach to plant leaves and equipment. The strands can appear white, grey, or green in coloration.
Causes:
  • Nutrient Imbalance – Strive for the following nutrient levels: N (10-20ppm), P (0.5-2ppm), K (10-20ppm), Ca (10-30ppm), Mg (2-5ppm), Fe (.1ppm).
  • Low CO2 – Strive for 20-30ppm concentration of CO2, as permitted by fauna.
Cures:
  • Manual removal – Use toothbrush to remove as much as possible.
  • Water change – Maintain weekly/bi-weekly water change schedule.
  • Increase CO2 – This will stimulate plant growth, which should help the plants out-compete the algae for resources.
  • Bleach treatment – Dip affected items/hardy plants into a bleach/water solution using a 1:20 ratio of bleach to water. Before putting them back into the tank, make sure the item is free of any bleach odor.
  • OxiClean treatment – Dip affected hardscape items in a OxiClean solution, making sure you only use the original OxiClean with no other additives.
  • Maintain proper macro (NPK) dosing scheme
Note:
  • Most fish/inverts will not eat staghorn algae.

Sources:


Copyright 2013, Greater Washington Aquatic Plant Association. 

About GWAPA

The Greater Washington Aquatic Plant Association is a place for those interested in aquatic plants to gather together to exchange information, plants, and just spend some time having fun with fellow aquatic plant enthusiasts.

Source:http://gwapa.org/wordpress/articles/algae-in-the-planted-aquarium/