Thursday, November 21, 2024

‘Through the Portal: Tales from a Hopeful Dystopia’ Anthology Releases December 31



 

Just before the Canada Postal strike halted mail dead in its tracks, I got a box full of books; pre-release copies of the anthology that Lynn Hutchinson Lee and I have been nurturing along from our idea three years ago when we pitched it to Exile Editions

 

I cracked open the box, like it was Christmas, and cuddled a book, so beautiful!

 

Ever since we had both had climate fiction stories appear in Exile Edition’s CLI-FI: Tales of Climate Change, Lynn and I had been discussing the possibility of collaborating on something. We liked the idea of something hopeful and Exile’s publisher agreed on the lure of something optimistic. We pitched the concept and Portal was born.

 

Writers, mostly Canadian, but also from the United States and around the world, submitted to us. We whittled down some 245 submissions to thirty-five stellar short stories and flash fiction that reflected the theme of the anthology: hope in the face of ecological adversity.

 

This was a labour of love, grounded in optimism and hope: to create a collection of optimistic dystopian short stories that celebrate the spirit of humanity in a changing world. As one reader said, “We definitely need more optimism and hope to offset the bombardment of negativity that is running rampant these days.”

 

Here’s how Exile represents the anthology on the back jacket:

 

Hopeful dystopias are so much more than an apparent oxymoron: they are in some fundamental way the spearhead of the future – and ironically often a celebration of human spirit by shining a light through the darkness of disaster. In Through the Portal: Tales from a Hopeful Dystopia, award-winning authors of speculative fiction Lynn Hutchinson Lee and Nina Munteanu present a collection that explores strange new terrains and startling social constructs, quiet morphing landscapes, dark and terrifying warnings, lush newly-told folk and fairy tales.

 

Exile further add about the contributors:

 

This is a fascinating collection of all-new, modern-day speculative storytelling, with insightful “Tales from a Hopeful Dystopia” featuring Agata Antonow, Sarah Christina Brown, Mary Burns, K.R. Byggdin, Petra Chambers, Katie Conrad, M.L.D. Curelas, Matthew Freeman, R. Haven, Liam Hogan, Cornelia Hoogland, Vanessa Hua, Jerri Jerreat, Zilla Jones, Katherine Koller, Erin MacNair, Melanie Marttila, Bruce Meyer, Isabella Mori, E. Martin Nolan, Avery Parkinson, Ursula Pflug, Marisca Pichette, Shana Ross, Lynne Sargent, Karen Schauber, Holly Schofield, Anneliese Schultz, Gin Sexsmith, Sara C. Walker, Jade Wallace, and Melissa Yuan-Innes. These authors show us that now, more than ever, our world urgently needs stories about hope.

 

You can order pre-release copies at 15% discount on the Exile Editions Portal sales page.



Nina Munteanu is a Canadian ecologist / limnologist and novelist. She is co-editor of Europa SF and currently teaches writing courses at George Brown College and the University of Toronto. Visit www.ninamunteanu.ca for the latest on her books. Nina’s bilingual “La natura dell’acqua / The Way of Water” was published by Mincione Edizioni in Rome. Her non-fiction book “Water Is…” by Pixl Press(Vancouver) was selected by Margaret Atwood in the New York Times ‘Year in Reading’ and was chosen as the 2017 Summer Read by Water Canada. Her novel “A Diary in the Age of Water” was released by Inanna Publications (Toronto) in June 2020.

 

Sunday, September 22, 2024

Riding for the Tour de Cure BC


My son Kevin and his partner Lin cycled 260 km over two days for Tour de Cure BC this August Starting in Cloverdale and finishing in Hope, they helped raise over seven million dollars for cancer research and equipment. 

 

Saturday was their first day of the Tour de Cure. Kevin sent me a link to follow his ride in real time on Garmin. It was so cool to watch him move along the various roads to the finish line! On the first day, he and Lin went a hundred and sixty km (hundred miles) at an average of 20-22 kph for over 7 hours from Cloverdale to Chilliwack! 




 

They camped there overnight and started the following morning at 7:30, travelling 100 km toward the finish line in Hope. Good friend Anne and I drove to Hope to greet them at the finish line. It was so exciting and I confess I was very emotional. I was so proud of them both! 




 

After lots of hugging, we had some burgers for lunch then a beer at the beer garden and visited in Memorial Park (by the finish line). I noticed their mud-covered faces, particularly Lin’s—and how very clean Kevin’s jersey looked—and it was explained to me that cyclists, when riding together, take turns leading and drafting each other(riding directly behind) to get a break while the leader breaks the wind and sets the pace; hmmm… what was Kevin doing? 




 

Kevin and Lin got a ride back with their bikes and Anne and I made our way back to Ladner, where Anne lives and I was visiting from Ontario. We celebrated with an ice cream cone! 





 

You can still donate through Kevin's page here: 

https://tourdecure.ca/fundraiser/kevinklassen



Thanks so much!

In gratitude,

Nina

 

 

Sunday, July 7, 2024

Diatom Forest as Water Quality Indicator: H2O Publishes my Illustration

My original illustration for my article on Diatom Forests

 

This past spring, Dutch scientist Herman van Dam (Consultancy for Water and Nature) approached me for permission to use my illustration of the diatom forest in a paper he and co-authors were preparing for the Dutch journal H2O. He explained that they wanted to help familiarize water managers who read the journal with the underwater biodiversity for which my illustration would be helpful.




 

The Illustration

 

He’d seen my illustration in my article “A Diatom Spring” in The Meaning of Water. Below is a summary of my article about the diatom forest and how the illustration came about:

 

Attachment and colonization starts with a ‘clean’ unpopulated surface (usually scoured by turbulence in a storm or some other event or a new surface tumbled into the water). Several stages of succession take place, starting with early colonizers. The adnate Cocconeis placentula, whose frustules attach directly to the substrate, is an example of an early colonizer. When they attach to a substrate they form a biofilm (think moss in a terrestrial forest). Adnate species are eventually overgrown by taxa that produce a mucilaginous pad (e.g. Synedra) or stalk (e.g. Gomphonema). The understory layer is typically occupied by diatoms such as Fragilaria vaucheriae and Synedra radians that attach to the surface at one end (apical) of their rod-shaped frustules using a mucilaginous pad to form “rosettes” that resemble spiky understory shrubs. This allows them to protrude above the adnate taxa and take advantage of more light.


Fragilaria and Synedra forming "rosettes" on substrate


 

The diatoms Cymbella and Gomphonema produce long stalks that attach directly to the surface, allowing them to form a swaying canopy over the lower tier of cells of Fragilaria vaucheriaeSynedra radians and early colonizer Cocconeis placentula whose frustules attach directly to the substrate (think overstory and understory of a terrestrial forest or a marine kelp forest).


SEMs of colonizing stalked diatoms


 

The Diatom Forest Structure

 

Just like trees, the canopy-forming stalked diatoms effectively compete for available light and nutrients in the water with their vertical reach. They provide the ‘overstory’ of the diatom forest’s vertical stratification. These tree-like diatoms also provide an additional surface for other diatoms to colonize (e.g. tiny epiphytic Achnanthes settle on the long stalks of Cymbella, just as lichen does on a tree trunk).

 

The stalked diatom forest acts like a net, trapping drifting-in euplankton, such as Pediastrum sp. andFragilaria spp., which then decide to stay and settle in with the periphyton community. The mucilage captures and binds detrital particles in both lower and upper stories of the diatom forest; these, in turn, provide nutrients for the diatom forest and additional surfaces for colonization. In their work with periphyton communities, Roemer et al. (1984) found several diatoms (e.g. Diatoma vulgare, Fragilaria spp. Stephanodiscus minutula) entangled in the complex network of cells, stalks, and detritus of the diatom forest’s upper story. They also found rosettes of Synedra radians—like jungle orchids—attached to large clumps of sediment caught by the net of mucilage.

 

Eventually, ‘overgrowth’ occurs as the periphyton colony matures and grows ‘top-heavy’ with all this networking. The upper story of the community simply sloughs off—usually triggered by turbulence in a river from rains, storms, or dam release. This is similar to a forest fire in the Boreal forest, which creates space and light for new colonization and growth. The dislodged periphyton ride the turbulent flow, temporarily becoming plankton, and those that survive the crashing waters provide “seed” to colonize substrates downstream. Others may get damaged and form the ‘dish soap’ like suds or foam you often see in turbulent water. The proteins, lignins and lipids of the diatoms (and other associated algae) act as surfactants or foaming agents that trap air and form bubbles that stick to each other through surface tension.

 

My illustration adapted by H2O in Dutch



The Paper

 

The paper was published June 13, 2024, in H2O, written by Jako van der Wal, Joep de Koning and Herman van Dam, and entitled “Snel inzicht in de ecologische waterkwaliteit met diatomeeën”(Quick insight into ecological water quality with diatoms).This paper was right up my alley! As a diatom specialist and limnologist who studied them in relation to environmental conditions and perturbations, I was intrigued by the paper and gained some additional insight on diatom ecology. 

 

Van der Wal et al. cited recent advances in DNA-based identification methods that provide fast and cheap diatom identification over the traditional method of using an optical compound microscope to observe morphological characteristics such as size, shape and ornamentations of the silicified cell wall. I can attest that this is a labour-intensive process in which I spent many hours and days hunched over a microscope during my masters research at Concordia University. This efficient DNA-identification has seen a resurgence of using diatoms as a valuable tool for water quality managers, with applications providing insight into both current and historical water conditions. The authors argue that benthic diatoms or periphyton(living on substrates such as plants, rock, sand and artificial surfaces) have been since the 1980s used as indicators of saproby, trophy, acid and salt character in, among other things, ditches and canals. For every type of water and water quality, there are diatoms that have their habitat there, write the authors. They argue that, unlike phytoplankton, fish and macrofauna, periphyton attach to a surface and hardly move; this means that effects of water quality can be demonstrated locally. Because many diatom species tolerances and intolerances are known and they reproduce quickly (over days), diatoms respond quickly to changes in the environment—much faster (often within weeks) than other ecological indicators. 

 

Scientists and water technicians can use diatom species composition to measure perturbations by organic material, low oxygen content, eutrophication, and toxicity. Given that diatoms colonize and develop quickly, this includes unstable and damaged habitats where other indicators cannot develop, such as shipping traffic, waves or where cleaning or dredging is carried out regularly. Historical insight can be provided by diatoms, given that their silica frustules are naturally preserved in sediment. 


Diatoms and organics form froth of bubbles on shore rocks


 

My Own Work with Turbulence

 

During my masters research in several streams in the Eastern Townships, I examined how diatoms colonized artificial substrates; how they formed productive biofilms that sustained an entire periphyton community of attached aquatic life and discovered that their pattern of colonization related to current speed and direction. I submerged glass slides (the kind people use to look at critters under the microscope) in a device in the stream and oriented them parallel or perpendicular to the current.


Microscope slides with periphyton growth after immersion in a stream 


 

There are two ways an algal community grows in a new area: (1) by initial colonization and settling; and (2) by reproduction and growth. I studied both by collecting slides exposed for differing lengths of time (collecting young and mature communities) in different seasons.

Nonrandom diatom colonization across a microscope slide


I discovered that the diatoms colonized these surfaces in weird ways based on micro-turbulence. Early colonizers, like Achnanthes and adnate Cocconeis preferred to settle on the edges of the slides, where the chaos of turbulence ruled over the sheer of laminar flow. They colonized by directly appressing to the substrate, making them the first photosynthetic taxa to establish a biofilm on a clean substrate. Vadeboncoeur and Katona (2022) write that “in waved-washed surfaces, these taxa may be the only algae that persist.” I postulated that the drift velocity was reduced on the slide’s edge, where turbulence was greatest, giving drifting algae a greater chance to collide and settle on the slide over the more shear laminar flow along the slide’s central face.

 

Once settled, the community was more likely to grow with turbulence. Greater turbulence decreases the diffusion gradient of materials around algal cells, with a higher rate of nutrient uptake and respiration. Turbulence provides greater opportunity to an existing colony by increasing “chaotic” flow, potential collision and exchange. Turbulence is a kind of “stable chaos” that enhances vigor, robustness and communication.

 

Diatom and organic scum below a dam


 

Using Diatoms in Water Quality Assessments

 

Van der Wal et al. argued that in environmental assessment the DNA-identification is just one step in a process that looks a population structure and health. Diatoms are already used in 21 of the 27 EU countries as part of a Water Framework Directive (WFD) quality index for flowing waters and in nine EU countries for standing water. Example conditions and associated perturbations where diatoms are a particularly useful indicator include: salinity, acidity, oxygen saturation, organic load (saproby), nutrient richness (trophy), temperature, and toxicity.

 

Diatom Growth Forms & Deformities

 

Van der Wal et al. argue that in addition to the different species compositions and the related ecological indices, growth forms and deformations of diatoms are useful indicators of water quality, particularly in relation to specific toxins.

 

Growth forms of diatoms can be described as attached, short-stalked, long-stalked, mobile and living in mucous tubes (Figure 3, van der Wal et al., 2024). Each growth form has advantages and disadvantages. For example, short-stalked diatoms are more difficult to graze and long-stalked diatoms come into contact with more water, from which they can then absorb substances. Long-stalked diatoms can also absorb more light if there is a lot of competition. Mobile diatoms can adapt to changing conditions by, for example, migrating from surface to subsurface and vice versa. Diatoms in slime tubes are more difficult to prey on and respond more slowly to environmental changes.

 

Van der Wal et al. cited work by Rimet & Bouchezwho found that long-stalked diatoms decline in waterbodies subjected to various pesticides. Falasco et al. also observed diatom deformities when exposed to various toxic substances. Heavy metals were observed to cause deformities in Navicula and nitrogen toxicity was also implicated in diatom deformities. 


Navicula sp. frustule on the right shows deformed striations


 

 

References: 

 

Falasco, E., Ector, L., Wetzel, C.E., Badino, G. & Bona, F. (2021). “Looking back, looking forward: a review of the new literature on diatom teratological forms (2010-2020).” Hydrobiologia 848: 1675-1753.

 

Munteanu, N. 2022. “When Diatoms Create a Forest.” https://themeaningofwater.com. December 18, 2022.

 

Munteanu, N. 2023. “When Diatoms Bloom in Spring.” https://themeaningofwater.com. May 14, 2023.

 

Munteanu, N. 2023. “A Diatom Spring.” https://themeaningofwater.com. April 16, 2023.

 

Munteanu, N. & E. J. Maly, 1981. The effect of current on the distribution of diatoms settling on submerged glass slides. Hydrobiologia 78: 273–282.

 

Munteanu, Nina. 2016. “Water Is…The Meaning of Water.” Pixl Press, Delta, BC. 584 pp.

 

Poikane, S., Kelly, M., & Cantonati, M. (2016). ‘Benthic algal assessment of ecological status in European lakes and rivers: challenges and opportunities’. Science of the Total Environment 568: 603-613. 

 

Rimet, F. & Bouchez, A. (2011). ‘Use of diatom life-forms and ecological guilds to assess pesticide contamination in rivers: Lotic mesocosm approaches’. Ecological Indicators 11: 489-499.

 

Roemer, Stephen C., Kyle D. Hoagland, and James R. Rosowski. 1984. “Development of a freshwater periphyton community as influenced by diatom mucilages.” Can. J. Bot. 62: 1799-1813. 

 

Serôdio, J. & Lavaud, J. (2020). “Diatoms and their ecological importance”. In: Leal Filho, W. et al. (eds). Life below water. Encyclopedia of the UN Sustainable Development Goals (pp.1-9). Springer Nature.

 

Smolar-Zvanut, Natasa and Matjaz Mikos. “The impact of flow regulation by hydropower dams on the periphyton community in the Soca River, Slovenia. Hydrological Sciences Journal 59 (5): 1032-1045.

 

Wal, J. van der, Joep de Koning and Herman van Dam. 2024. “Snel inzicht in de ecologische waterkwaliteit met diatomeeën”  H2O, 13 June, 2024.


Wood, Allison R. 2016. “Attached Algae as an Indicator of Water Quality: A Study of the Viability of Genomic Taxanomic Methods.” Honors Theses and Capstones. 306. University of New Hampshire Scholars’ Repository.

 

Zuilichem, H. van, Peeters, E. & Wal, J. van der (2016). “Diatomeeën als indicator voor waterkwaliteit nabij rwzi's”. H2O-Online, 9 december 2016. https://edepot.wur.nl/401202 


Diatom and organic froth on a river below a dam




Nina Munteanu is a Canadian ecologist / limnologist and novelist. She is co-editor of Europa SF and currently teaches writing courses at George Brown College and the University of Toronto. Visit www.ninamunteanu.ca for the latest on her books. Nina’s bilingual “La natura dell’acqua / The Way of Water” was published by Mincione Edizioni in Rome. Her non-fiction book “Water Is…” by Pixl Press(Vancouver) was selected by Margaret Atwood in the New York Times ‘Year in Reading’ and was chosen as the 2017 Summer Read by Water Canada. Her novel “A Diary in the Age of Water” was released by Inanna Publications (Toronto) in June 2020.

Thursday, May 2, 2024

Nina Munteanu’s “Robin’s Last Song” in Metastellar Magazine



My short story Robin’s Last Song was republished recently in the superlative online magazine Metastellar. The story had first been published in 2021 in Issue 128 of Apex Magazine. An earlier version of the story called Out of the Silence appeared in the literary magazine subTerrain Magazine Issue 85 in 2020. 

 

I raced up the stairs to the auditorium then quieted my breath and listened at the door, heart thumping like a bird trying to escape. Professor Gopnik was ten minutes into his lecture; I could hear his commanding voice: “… estimates that the entire number of birds have been reduced by a third in five decades—I mean common birds like the robins, sparrows, warblers, and even starlings…”

He was talking about Rosenberg’s paper in Science. The study shocked the scientific community; but I had already observed the decline of the house sparrow around my aunt and uncle’s house near the Old Mill. And the robin—my namesake, whose song heralded spring for me—had grown quiet.

I imagined Gopnik waving the journal at the class in his typical showman style. He had a habit of wandering the stage like an evangelist, fixing each student with intense blue eyes as if challenging them to believe. I thought him an over-confident condescending prig. But for someone who looked as young as the students he was teaching, Gopnik was brilliant. And what he was doing was so important. I wanted so badly to work under him as a grad student. But he terrified me.


 

The Story Behind the Story

 

It all began with my discovery of an emerging bioacoustic tool, soundscape ecology, that measures biodiversity and ecosystem functionality. I’d just read the disturbing 2019 Science article by Rosenberg and team who determined that our slow violence of habitat degradation and toxic pollution has reduced the world’s bird population by a third in just five decades. I was devastated; I could not imagine a world without the comforting sound of birds. What would it be like if all the birds disappeared?

 

Already primed with research into genetic engineering for the sequel to my 2020 eco-novel, A Diary in the Age of Water, my muse (often delightfully unruly) played with notions of the potential implication of gene hacking in ecological calamity and how this might touch on our precious birds: when nature “is forced out of her natural state and squeezed and moulded;” her secrets “reveal themselves more readily under the vexations of art than when they go their own way.”

 

Robin’s Last Songis a realizable work of fiction in which science and technology are both instigators of disaster and purveyors of salvation. Today, gene-editing, proteomics, and DNA origami—to name just a few—promise many things from increased longevity in humans to giant disease-resistant crops. Will synthetic biology control and redesign Nature to suit hubris or serve evolution? What is our moral imperative and who are the casualties? As Francis Bacon expressed in Novum Organum, science does not make that decision. We do. 

 

 

You can read an Interview on Writing Robin’s Last Song that Alberta author Simon Rose did with me recently.



 


I also recently sat down with Rebecca E. Treasure of Apex Magazine for a conversation about story, ecology, and the future. Here’s how it begins:

 

Apex Magazine: The Way of Water in Little Blue Marble is such a powerful piece touching on water scarcity and friendship, a dry future and the potential for technology to overtake natural ecology. Robin’s Last Songexplores extinction, human fallibility, friendship, and again, that conflict between technology and nature. Do you think we’re heading toward the kind of dystopia shown in these stories?...

 


For more about bird declines around the world see my articles: “What if the Birds All Die?”

andBirds are Vanishing.”

 

Over increasingly large areas of the United States, spring now comes unheralded by the return of the birds. The early mornings are strangely silent where once they were filled with the beauty of bird song.”—Rachel Carson, Silent Spring

 

Read my other stories in Metastellar here: Nina Munteanu in Metastellar Speculative Fiction and Beyond. 





Nina Munteanu is a Canadian ecologist / limnologist and novelist. She is co-editor of Europa SF and currently teaches writing courses at George Brown College and the University of Toronto. Visit www.ninamunteanu.ca for the latest on her books. Nina’s bilingual “La natura dell’acqua / The Way of Water” was published by Mincione Edizioni in Rome. Her non-fiction book “Water Is…” by Pixl Press(Vancouver) was selected by Margaret Atwood in the New York Times ‘Year in Reading’ and was chosen as the 2017 Summer Read by Water Canada. Her novel “A Diary in the Age of Water” was released by Inanna Publications (Toronto) in June 2020.